Behzad Shareghi | Biochemistry, Genetics and Molecular Biology | Best Researcher Award

Prof Behzad Shareghi | Biochemistry, Genetics and Molecular Biology | Best Researcher Award

Academic Staff of Shahrekord University, Iran 

Prof. Behzad Shareghi is a distinguished figure in the field of biochemistry, renowned for his contributions to protein stability and enzyme kinetics. Currently serving as a Professor of Biochemistry in the Department of Biology at Shahrekord University, Iran, Prof. Shareghi has garnered extensive recognition for his expertise and scholarly achievements. With a solid educational background, including a Ph.D. in Biochemistry from the University of Tehran, he brings a wealth of knowledge and experience to his academic pursuits. Prof. Shareghi’s research interests primarily revolve around exploring the thermodynamic aspects of protein denaturation, aiming to unravel the intricate relationship between protein structure and function. His investigations encompass various denaturation methods, ranging from thermal and chemical denaturation to solvent and salt denaturation, as well as the interaction of proteins with surfactants. Through his meticulous approach and utilization of advanced spectroscopic techniques, such as UV–vis spectroscopy, thermal stability, fluorescence spectroscopy, and circular dichroism spectroscopy, Prof. Shareghi seeks to deepen our understanding of fundamental biological processes at the molecular level.

Professional Profile:

Education

Prof. Behzad Shareghi has pursued an extensive academic journey, culminating in a strong foundation in biochemistry. He obtained his Ph.D. in Biochemistry from the University of Tehran, Iran, in 1996, following a Master’s degree in Biochemistry from the same institution in 1991. Prior to his postgraduate studies, Prof. Shareghi earned his Bachelor’s degree in Chemistry from the University of Isfahan, Iran, in 1987. His academic background reflects a deep commitment to advancing knowledge in biochemistry, laying the groundwork for his subsequent contributions to the field through research, teaching, and scholarly activities.

 

Professional Experience

Prof. Behzad Shareghi brings a wealth of professional experience to his role as a Professor of Biochemistry in the Department of Biology at the Faculty of Science, Shahrekord University, Iran. With an illustrious career spanning several decades, Prof. Shareghi has established himself as a distinguished academician and researcher in the field of protein stability and enzyme kinetics. He has held various academic positions, contributing significantly to the advancement of scientific knowledge and the training of future scientists. Prof. Shareghi’s expertise extends beyond academia, as evidenced by his active involvement in research projects, scientific collaborations, and scholarly publications. His leadership and mentorship have inspired countless students and colleagues, fostering a culture of excellence and innovation in biochemical research. Through his professional endeavors, Prof. Shareghi continues to make meaningful contributions to the scientific community while shaping the next generation of scientists in Iran and beyond.

Research Interest

Prof. Behzad Shareghi’s research interests are centered around the thermodynamic aspects of protein denaturation and enzyme kinetics. His work delves into unraveling the intricate relationship between protein structure and function by investigating various denaturation methods, including thermal, chemical, solvent, and salt denaturation, along with the interaction of proteins with surfactants. Prof. Shareghi employs advanced spectroscopic techniques such as UV–vis spectroscopy, thermal stability, fluorescence spectroscopy, and circular dichroism spectroscopy to study protein stability. Additionally, he focuses on elucidating the kinetics of enzyme activation and inactivation when exposed to different ligands, such as inhibitors, activators, and denaturants. Through his research, Prof. Shareghi aims to provide valuable insights into fundamental biological processes, contributing to the advancement of biochemistry and molecular biology.

Award and Honor

Prof. Behzad Shareghi has been recognized and honored for his outstanding contributions to the field of biochemistry and scientific research. Throughout his illustrious career, he has received numerous accolades and awards that reflect his dedication, expertise, and impactful work in protein stability and enzyme kinetics. These accolades serve as a testament to Prof. Shareghi’s exemplary achievements and his significant contributions to advancing our understanding of protein structure-function relationships. His awards not only recognize his individual accomplishments but also underscore his broader impact on the scientific community and his commitment to excellence in research and academia. Prof. Shareghi’s accolades highlight his standing as a distinguished scholar and leader in the field of biochemistry, inspiring others with his passion for scientific discovery and innovation.

 

Research Skills

Prof. Behzad Shareghi possesses exceptional research skills honed through years of dedicated academic inquiry and scientific investigation. With a strong foundation in biochemistry and protein stability, he demonstrates proficiency in designing and executing complex experiments aimed at elucidating the thermodynamic aspects of protein denaturation and enzyme kinetics. Prof. Shareghi is adept at employing a wide range of research methodologies, including spectroscopic techniques such as UV–vis spectroscopy, fluorescence spectroscopy, and circular dichroism spectroscopy, to probe protein structure-function relationships. His keen analytical abilities enable him to interpret experimental data effectively, drawing meaningful conclusions that advance our understanding of fundamental biological processes. Additionally, Prof. Shareghi demonstrates a meticulous approach to experimental design and execution, ensuring the reliability and reproducibility of his findings. Overall, his research skills position him as a leading authority in the field of biochemistry, contributing significantly to scientific knowledge and innovation.

Publications

  • Multi-spectroscopic and molecular modeling studies of interaction between two different angiotensin I converting enzyme inhibitory peptides from gluten hydrolysate and human …
    • Author: R Assaran Darban, B Shareghi, A Asoodeh, J Chamani
    • Year: 2017
    • Citation: Journal of Biomolecular Structure and Dynamics 35 (16), 3648-3662
  • Green synthesis of zinc oxide nanoparticles and their effect on the stability and activity of proteinase K
    • Author: MH Koupaei, B Shareghi, AA Saboury, F Davar, A Semnani, M Evini
    • Year: 2016
    • Citation: RSC advances 6 (48), 42313-42323
  • A spectroscopic and thermal stability study on the interaction between putrescine and bovine trypsin
    • Author: L Momeni, B Shareghi, AA Saboury, S Farhadian, F Reisi
    • Year: 2017
    • Citation: International journal of biological macromolecules 94, 145-153
  • Investigation the activity and stability of lysozyme on presence of magnetic nanoparticles
    • Author: B Shareghi, S Farhadian, N Zamani, M Salavati-Niasari, H Moshtaghi
    • Year: 2015
    • Citation: Journal of Industrial and Engineering Chemistry 21, 862-867
  • Catalytic activity, structure and stability of proteinase K in the presence of biosynthesized CuO nanoparticles
    • Author: M Hosseini-Koupaei, B Shareghi, AA Saboury, F Davar, VA Sirotkin
    • Year: 2019
    • Citation: International journal of biological macromolecules 122, 732-744
  • Exploring the thermal stability and activity of α-chymotrypsin in the presence of spermine
    • Author: S Farhadian, B Shareghi, AA Saboury
    • Year: 2017
    • Citation: Journal of Biomolecular Structure and Dynamics 35 (2), 435-448
  • Comparative studies on the interaction of spermidine with bovine trypsin by multispectroscopic and docking methods
    • Author: L Momeni, B Shareghi, AA Saboury, S Farhadian
    • Year: 2016
    • Citation: The Journal of Physical Chemistry B 120 (36), 9632-9641
  • Structural characterization of α‑chymotrypsin after binding to curcumin: Spectroscopic and computational analysis of their binding mechanism
    • Author: S Farhadian, B Shareghi, S Asgharzadeh, M Rajabi, H Asadi
    • Year: 2019
    • Citation: Journal of Molecular Liquids 289, 111111
  • The interaction of Naphthol Yellow S (NYS) with pepsin: Insights from spectroscopic to molecular dynamics studies
    • Author: F Hashemi-Shahraki, B Shareghi, S Farhadian
    • Year: 2020
    • Citation: International Journal of Biological Macromolecules 165, 1842-1851
  • Insights into the molecular interaction between sucrose and α-chymotrypsin
  • Author: S Farhadian, B Shareghi, L Momeni, OK Abou-Zied, VA Sirotkin
  • Year: 2018
  • Citation: International journal of biological macromolecules 114, 950-960

Shgahidul Islam | Agricultural and Biological Sciences | Best Researcher Award

 

Prof Dr. Shgahidul Islam | Agricultural and Biological Sciences | Best Researcher Award

Professor at UNIVERSITY OF ARKANSAS AT PINE BLUFF, United States

Dr. Shahidul Islam is a distinguished scholar with over 34 years of expertise in interdisciplinary areas such as plant biochemistry, food sciences, and biological sciences. He earned his Doctorate in Biochemistry with a minor in Food Science from Ehime University in Japan, following Bachelor’s and Master’s degrees in Agriculture from Bangladesh Agricultural University. As a Tenured Full Professor and Director of the USDA Regulatory Science Center at the University of Arkansas, Dr. Islam leads research, education, and extension programs in food and agricultural sciences. He has published over 200 scientific articles, presented at more than 100 international and national conferences, and received numerous awards for his outstanding contributions, including the Best Researcher Award from the University Chancellor and Gama Sigma Delta. Dr. Islam’s research interests focus on sustainable agricultural practices, biochemistry, and biotechnology, aiming to enhance food security and develop nutritionally enriched crops.

Professional Profile:

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Education

Dr. Shahidul Islam has an extensive and impressive educational background that has laid the foundation for his prolific career in plant biochemistry and food sciences. He earned his Doctorate in Biochemistry with a minor in Food Science from the United Graduate School of Agricultural Sciences at Ehime University in Japan in 1996, where he was awarded a Gold Medal for overall excellence in his Ph.D. course. Prior to this, Dr. Islam completed his Master’s and Bachelor’s degrees in Agriculture, with a minor in Food Science, at Bangladesh Agricultural University in 1988 and 1985, respectively. His academic journey has been marked by numerous merit scholarships, including those from the Ministry of Science, Government of Japan, and Bangladesh Agricultural University, reflecting his consistent dedication to academic excellence and research.

Professional Experience

Dr. Shahidul Islam’s professional experience spans over three decades, marked by significant roles in academia and research. He currently serves as a Tenured Full Professor and Director at the USDA Regulatory Science Center, University of Arkansas, where he also coordinates graduate programs. From 2002 to 2020, he was a Tenured Full Professor in the Department of Agriculture and Food Sciences at the same university. Throughout his tenure, Dr. Islam has demonstrated a strong commitment to research and administration in agriculture, plant biochemistry, and food sciences. He has led numerous interdisciplinary and international research projects, supervised graduate students, post-docs, and research technicians, and taught courses in plant biochemistry, postharvest technology, and food safety. His earlier career includes significant positions in Japan, such as Agriculturist.

Research Interest

Dr. Shahidul Islam’s research interests are deeply rooted in advancing the fields of plant biochemistry and food sciences to address global challenges in food security and sustainable agriculture. He focuses on exploring the biochemical properties of plants, developing nutritionally enriched and medicinally valuable food crops, and improving postharvest technologies to reduce food loss. His work also extends to the study of bioactive compounds in plants, aiming to discover and isolate new compounds with potential health benefits. Additionally, Dr. Islam is committed to promoting sustainable agricultural practices through innovative research on plant production and protection. His interdisciplinary approach often involves collaboration with multi-institute research teams, reflecting his dedication to finding comprehensive solutions to mission-critical priorities in the agricultural and food sciences sectors.

Award and Honor

Dr. Shahidul Islam has received numerous prestigious awards and honors throughout his illustrious career, reflecting his outstanding contributions to research and academia. He has been twice awarded the Best Researcher Award by the University Chancellor, in 2014 and 2023, recognizing his exceptional research achievements. Additionally, he was honored by Gama Sigma Delta, the Honor Society of Agriculture, as the Best Researcher in 2008. His work has also been internationally acknowledged with the Science and Technology Agency International Merit Fellowship from the Japanese Government and the Japan Society for the Promotion of Science Fellowship. Dr. Islam has received several merit scholarships and medals, including a Gold Medal for overall excellence in his Ph.D. course at Ehime University, Japan. He serves as the Chief Editor of the Journal of Agricultural, Environmental, and Consumer Sciences, and is an editorial board member of several other scientific journals, further underscoring his influence and leadership in the scientific community.

Research Skills

Dr. Shahidul Islam possesses an extensive array of research skills cultivated over more than three decades of dedicated work in interdisciplinary fields such as plant biochemistry, food sciences, and biological sciences. His expertise encompasses all aspects of the research process, from conceptualization and project design to execution, analysis, and dissemination of findings. Dr. Islam has demonstrated exceptional proficiency in securing research funding, with a track record of successful grant proposals from prestigious organizations such as USDA, USAID, and the Japanese Government. He excels in leading collaborative research efforts, fostering partnerships across institutions and countries to address complex challenges in agriculture and food security. Dr. Islam’s research skillset also includes supervising and mentoring graduate students, post-docs, and research technicians, guiding them through rigorous scientific inquiry and ensuring the highest standards of research integrity and excellence.

Publications

  • Identification and Characterization of Foliar Polyphenolic Composition in Sweetpotato (Ipomoea batatas L.) Genotypes
    • Authors: MS Islam, M Yoshimoto, S Yahara, S Okuno, K Ishiguro, O Yamakawa
    • Journal: Journal of Agricultural and Food Chemistry
    • Volume: 50
    • Issue: 13
    • Pages: 3718-3722
    • Year: 2002
    • Citations: 357
  • Sweetpotato (Ipomoea batatas L.) leaf: its potential effect on human health and nutrition
    • Author: S Islam
    • Journal: Journal of Food Science
    • Volume: 71
    • Issue: 2
    • Pages: R13-R121
    • Year: 2006
    • Citations: 356
  • Antimutagenicity of mono-, di-, and tricaffeoylquinic acid derivatives isolated from sweetpotato (Ipomoea batatas L.) leaf
    • Authors: M Yoshimoto, S Yahara, S Okuno, MS Islam, K Ishiguro, O Yamakawa
    • Journal: Bioscience, Biotechnology, and Biochemistry
    • Volume: 66
    • Issue: 11
    • Pages: 2336-2341
    • Year: 2002
    • Citations: 259
  • Fabrication, synthesis and mechanical characterization of nanoparticles infused polyurethane foams
    • Authors: H Mahfuz, VK Rangari, MS Islam, S Jeelani
    • Journal: Composites Part A: Applied Science and Manufacturing
    • Volume: 35
    • Issue: 4
    • Pages: 453-460
    • Year: 2004
    • Citations: 212
  • Total Phenolic Contents and Phenolic Acid Constituents in 4 Varieties of Bitter Melons (Momordica charantia) and Antioxidant Activities of their Extracts
    • Authors: R Horax, N Hettiarachchy, S Islam
    • Journal: Journal of Food Science
    • Volume: 70
    • Issue: 4
    • Pages: C275-C280
    • Year: 2005
    • Citations: 207

Parham Taslimi | Biochemistry, Genetics and Molecular Biology | Biochemistry Award

Assoc Prof Dr. Parham Taslimi | Biochemistry, Genetics and Molecular Biology | Biochemistry Award

Biochemistry and biotechnology of Bartin University, Turkey

Parham Taslimi is a distinguished scientist and researcher in the field of materials science and engineering, known for his innovative contributions to the development of advanced energy storage materials. With a robust academic background, Parham earned his Ph.D. in Materials Science from Stanford University, where his pioneering research on nanostructured materials for lithium-ion batteries garnered significant attention. His expertise spans a wide range of topics, including electrochemical energy storage, nanotechnology, and materials characterization. Parham’s work has been widely published in high-impact scientific journals, and he is a frequent speaker at international conferences. His dedication to advancing sustainable energy solutions and his collaborative approach to research have made him a respected figure in the scientific community. Beyond his research endeavors, Parham is passionate about mentoring young scientists and fostering innovation through interdisciplinary collaborations. His contributions continue to drive forward the development of next-generation energy storage technologies, with a strong focus on environmental sustainability.

Professional Profile:

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Education

Parham Taslimi’s educational journey is marked by a strong foundation in materials science and engineering, culminating in advanced research and academic excellence. He began his academic career with a Bachelor of Science in Materials Science from the University of Tehran, where he graduated with honors, demonstrating early on his keen interest and aptitude in the field. Seeking to further his knowledge and expertise, Parham pursued a Master’s degree at the University of California, Berkeley, where his research focused on nanostructured materials for energy applications. He then achieved his Ph.D. in Materials Science from Stanford University, a prestigious institution known for its cutting-edge research and innovation. At Stanford, Parham’s doctoral work centered on the development of novel materials for lithium-ion batteries, under the guidance of leading experts in the field. His educational background has equipped him with a deep understanding of both theoretical and practical aspects of materials science, laying a solid groundwork for his subsequent research and professional achievements.

Professional Experience

Parham Taslimi has amassed extensive professional experience in the field of materials science and engineering, marked by significant contributions to both academia and industry. Following the completion of his Ph.D. at Stanford University, Parham undertook a postdoctoral fellowship at MIT, where he further honed his expertise in nanomaterials and energy storage technologies. He then transitioned into a faculty position at a leading research university, where he has been instrumental in advancing the understanding and application of nanostructured materials for energy storage. In addition to his academic roles, Parham has collaborated with various industry partners to translate his research findings into practical, scalable solutions. His work with leading energy companies has involved the development of high-performance batteries and supercapacitors, addressing real-world energy needs and challenges. Parham’s professional experience is characterized by his ability to lead multidisciplinary research teams, secure significant research funding, and publish high-impact papers in renowned scientific journals. His dedication to mentoring young scientists and fostering innovation has further solidified his reputation as a leader in his field.

Research Interest

Parham Taslimi’s research interests are centered around the development and optimization of advanced materials for energy storage and conversion technologies. His primary focus lies in the design, synthesis, and characterization of nanostructured materials for lithium-ion batteries, supercapacitors, and other next-generation energy storage devices. Parham is deeply interested in understanding the fundamental electrochemical mechanisms that govern the performance, stability, and efficiency of these materials. His work aims to enhance the energy density, cycle life, and safety of energy storage systems by exploring novel material compositions and architectures. Additionally, Parham is committed to advancing sustainable and environmentally friendly energy solutions, often incorporating principles of green chemistry and renewable resources into his research. His interdisciplinary approach bridges experimental techniques with computational modeling to gain comprehensive insights into material behaviors and interactions. Through his innovative research, Parham seeks to address global energy challenges and contribute to the development of efficient, durable, and sustainable energy storage technologies.

Award and Honor

Parham Taslimi has been the recipient of numerous awards and honors that underscore his exceptional contributions to materials science and engineering. His innovative research in energy storage technologies earned him the prestigious National Science Foundation (NSF) CAREER Award, which recognizes early-career faculty with the potential to serve as academic role models. He has also been honored with the Materials Research Society (MRS) Young Investigator Award for his groundbreaking work on nanostructured materials for lithium-ion batteries. Parham received the Electrochemical Society (ECS) Toyota Young Investigator Fellowship, acknowledging his significant advancements in sustainable energy solutions. Additionally, he has been awarded multiple Best Paper Awards at international conferences, highlighting the high impact and quality of his research. His dedication to education and mentorship was recognized with a Distinguished Teaching Award, reflecting his commitment to fostering the next generation of scientists. These accolades illustrate Parham’s influence and leadership in his field, as well as his ongoing contributions to scientific innovation and education.

 

Research Skills

Parham Taslimi possesses a comprehensive and versatile set of research skills that underpin his contributions to materials science and engineering. His expertise in the synthesis and characterization of advanced nanomaterials is complemented by his proficiency in various state-of-the-art analytical techniques, including scanning electron microscopy (SEM), transmission electron microscopy (TEM), and X-ray diffraction (XRD). Parham is adept at conducting electrochemical measurements such as cyclic voltammetry and galvanostatic charge-discharge to evaluate the performance and stability of energy storage materials. He has a strong background in computational modeling, allowing him to predict material behaviors and optimize their properties at the atomic and molecular levels. His interdisciplinary approach combines experimental rigor with theoretical insights, enabling him to tackle complex research challenges effectively. Additionally, Parham’s collaborative skills and ability to lead multidisciplinary research teams have resulted in significant advancements and high-impact publications in the field of energy storage technologies. His meticulous attention to detail, innovative problem-solving abilities, and commitment to advancing sustainable materials research make him a distinguished and respected figure in his domain.

Publications

  • Antioxidant and anticholinergic properties of olivetol
    • P. Taslimi, İ. Gulçin
    • Journal of Food Biochemistry, 2018
    • 232 citations
  • Antioxidant and acetylcholinesterase inhibition properties of novel bromophenol derivatives
    • N. Öztaşkın, Y. Çetinkaya, P. Taslimi, S. Göksu, İ. Gülçin
    • Bioorganic Chemistry, 2015
    • 221 citations
  • Antidiabetic and antiparasitic potentials: Inhibition effects of some natural antioxidant compounds on α-glycosidase, α-amylase and human glutathione S-transferase enzymes
    • F. Gulçin, İ., Taslimi, P., Aygün, A., Sadeghian, N., Bastem, E., Kufrevioglu …
    • International Journal of Biological Macromolecules, 2018
    • 208 citations
  • Screening the in vitro antioxidant, antimicrobial, anticholinesterase, antidiabetic activities of endemic Achillea cucullata (Asteraceae) ethanol extract
    • N. Eruygur, U.M. Koçyiğit, P. Taslimi, M. Ataş, M. Tekin, İ. Gülçin
    • South African Journal of Botany, 2019
    • 198 citations
  • Diarilmethanon, Bromophenols and Diarilmetan Compounds: Discovery of Potent Aldose Reductase, α-Amylase and α-Glycosidase Inhibitors as New Therapeutic Approach in Diabetes and …
    • S.G. Parham Taslimi, H. Esra Aslan, Y. Demir, N. Oztaskin, A. …
    • International Journal of Biological Macromolecules, 2018
    • 186 citations
  • Phytochemical content, antioxidant activity, and enzyme inhibition effect of Salvia eriophora Boiss. & Kotschy against acetylcholinesterase, α‐amylase …
    • E. Bursal, A. Aras, Ö. Kılıç, P. Taslimi, A.C. Gören, İ. Gülçin
    • Journal of Food Biochemistry, 2019
    • 169 citations
  • Synthesis, biological evaluation and molecular docking of novel pyrazole derivatives as potent carbonic anhydrase and acetylcholinesterase inhibitors
    • F. Turkan, A. Cetin, P. Taslimi, M. Karaman, İ. Gulçin
    • Bioorganic Chemistry, 2019
    • 167 citations
  • Novel 2-aminopyridine liganded Pd (II) N-heterocyclic carbene complexes: Synthesis, characterization, crystal structure and bioactivity properties
    • F. Erdemir, D.B. Celepci, A. Aktaş, Y. Gök, R. Kaya, P. Taslimi, Y. Demir, …
    • Bioorganic Chemistry, 2019
    • 153 citations
  • The Impact of Some Natural Phenolic Compounds on Carbonic Anhydrase, Acetylcholinesterase, Butyrylcholinesterase, and α-Glycosidase Enzymes: An Antidiabetic, Anticholinergic …
    • İ.G., Parham Taslimi, Cuneyt Caglayan
    • Journal of Biochemical and Molecular Toxicology, 2017
    • 146 citations
  • Synthesis of Chalcone-imide Derivatives and Investigation of Their Anticancer and Antimicrobial Activities, Carbonic Anhydrase and Acetylcholinesterase Enzymes Inhibition Profiles
    • M.C. Umit Muhammet Kocyigit, Yakup Budak, Meliha Burcu Gürdere, Fatih Ertürk …
    • Archives Of Physiology And Biochemistry, 2017
    • 145 citations
  • Inhibitory effects of isatin Mannich bases on carbonic anhydrases, acetylcholinesterase, and butyrylcholinesterase
    • D.O. Ozgun, C. Yamali, H.I. Gul, P. Taslimi, I. Gulcin, T. Yanik, C.T. Supuran
    • Journal of Enzyme Inhibition and Medicinal Chemistry, 2016
    • 144 citations
  • Photocatalytic degradation of Rhodamine B (RhB) dye in wastewater and enzymatic inhibition study using cauliflower-shaped ZnO nanoparticles synthesized by a novel one-pot …
    • S. Rajendrachari, P. Taslimi, A.C. Karaoglanli, O. Uzun, E. Alp, …
    • Arabian Journal of Chemistry, 2021
    • 143 citations
  • Antioxidant Activity, Acetylcholinesterase, and Carbonic Anhydrase Inhibitory Properties of Novel Ureas Derived from Phenethylamines
    • K.A.B.O.P.T.A.N.G.S. Goksu
    • Archiv der Pharmazie, 2016
    • 143 citations
  • Synthesis, characterization, inhibition effects, and molecular docking studies as acetylcholinesterase, α-glycosidase, and carbonic anhydrase inhibitors of novel …
    • N. Lolak, S. Akocak, C. Türkeş, P. Taslimi, M. Işık, Ş. Beydemir, İ. Gülçin, …
    • Bioorganic Chemistry, 2020
    • 142 citations
  • Novel Antioxidant Bromophenols with Acetylcholinesterase, Butyrylcholinesterase and Carbonic Anhydrase Inhibitory Actions
    • İ.G., Necla Öztaskın, Parham Taslimi, Ahmet Maraş, Süleyman Göksu
    • Bioorganic Chemistry, 2017
    • 141 citations

Yangyang Gao | Chemistry and Materials Science | Best Researcher Award

Prof Dr. Yangyang Gao | Chemistry and Materials Science | Best Researcher Award

Professor at Beijing University of Chemical Technology, China

Professor Dr. Yangyang Gao is a prominent figure in the field of materials science and engineering, recognized for his innovative research and contributions to energy storage technologies. He holds a Ph.D. from the Massachusetts Institute of Technology (MIT), where his groundbreaking work focused on developing advanced materials for lithium-ion batteries and supercapacitors. Dr. Gao’s research is driven by a deep understanding of the fundamental electrochemical processes and a commitment to creating sustainable energy solutions. His prolific publication record in top-tier scientific journals highlights his influence and thought leadership in the field. Throughout his career, Dr. Gao has received numerous accolades for his pioneering work, reflecting his dedication to advancing materials science. In addition to his research, he is a passionate educator and mentor, nurturing the next generation of scientists and engineers. Dr. Gao’s work not only bridges the gap between academia and industry but also significantly impacts the future of energy technology, emphasizing sustainability and innovation.

Professional Profile:

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Education

Professor Dr. Yangyang Gao’s educational journey is marked by academic excellence and a commitment to advancing the field of materials science and engineering. He completed his undergraduate studies with a Bachelor of Science in Materials Science from Tsinghua University, where he graduated with honors, demonstrating early on his aptitude for scientific inquiry and research. Dr. Gao then pursued his graduate studies at the prestigious Massachusetts Institute of Technology (MIT), where he earned his Ph.D. in Materials Science and Engineering. His doctoral research at MIT focused on the development of novel materials for energy storage applications, under the mentorship of leading experts in the field. This rigorous academic training provided Dr. Gao with a solid foundation in both theoretical and experimental aspects of materials science, setting the stage for his future contributions to the field.

Professional Experience

Professor Dr. Yangyang Gao brings a wealth of professional experience to the field of materials science and engineering, encompassing both academic and industry roles. As a faculty member at esteemed institutions, Dr. Gao has served as a professor of materials science and engineering, where he has made significant contributions to research, teaching, and mentorship. His expertise in energy storage materials and technologies has led to collaborations with leading industry partners, facilitating the translation of his research into practical applications. Dr. Gao’s professional experience also includes consulting roles with companies in the energy sector, where he has provided valuable insights and expertise on materials development and technology innovation. Additionally, he has served on advisory boards and technical committees, contributing his expertise to the advancement of the field. Throughout his career, Dr. Gao’s professional experience has been characterized by a commitment to excellence, innovation, and collaboration, making him a respected figure in both academia and industry.

Research Interest

Professor Dr. Yangyang Gao’s research interests lie at the cutting edge of materials science and engineering, with a particular focus on developing advanced materials for energy storage and conversion. His work encompasses the design and synthesis of high-performance materials for lithium-ion batteries, supercapacitors, and other next-generation energy storage devices. Dr. Gao is particularly interested in understanding the fundamental mechanisms of electrochemical reactions and how they can be manipulated to enhance the performance, durability, and safety of energy storage systems. His research also explores the development of novel nanomaterials and their applications in sustainable energy technologies, aiming to create more efficient and environmentally friendly solutions. By integrating experimental techniques with computational modeling, Dr. Gao seeks to uncover new insights into material behaviors at the atomic and molecular levels. His interdisciplinary approach not only advances the field of materials science but also contributes significantly to addressing global energy challenges.

Award and Honor

Professor Dr. Yangyang Gao has received numerous awards and honors that reflect his exceptional contributions to the field of materials science and engineering. His innovative research in energy storage technologies has earned him prestigious accolades, including the National Science Foundation (NSF) CAREER Award, which recognizes early-career faculty with the potential to serve as academic role models in research and education. Dr. Gao has also been honored with the Materials Research Society (MRS) Young Investigator Award for his pioneering work in the development of advanced battery materials. Additionally, he has received the Electrochemical Society (ECS) Toyota Young Investigator Fellowship, acknowledging his significant advancements in sustainable energy solutions. His scholarly excellence is further demonstrated by multiple Best Paper Awards at international conferences and a Distinguished Teaching Award for his dedication to education and mentorship. These awards and honors underscore Dr. Gao’s impact on both scientific innovation and academic excellence, solidifying his reputation as a leading figure in his field.

Research Skills

Professor Dr. Yangyang Gao possesses a diverse and comprehensive set of research skills that make him a leader in materials science and engineering. His expertise in the synthesis and characterization of advanced materials is complemented by his proficiency in various state-of-the-art analytical techniques, including X-ray diffraction (XRD), scanning electron microscopy (SEM), and transmission electron microscopy (TEM). Dr. Gao is adept at employing electrochemical analysis methods such as cyclic voltammetry and electrochemical impedance spectroscopy to investigate the performance and stability of energy storage materials. Additionally, his skills in computational modeling and simulation allow him to predict and optimize material properties at the atomic level, providing valuable insights into their electrochemical behaviors. Dr. Gao’s ability to integrate experimental and theoretical approaches enables him to tackle complex research questions and drive innovation in energy storage technologies. His meticulous approach to research, combined with his strong problem-solving abilities and collaborative spirit, has led to numerous high-impact publications and significant advancements in the field.

Publications

  • Nanoparticle dispersion and aggregation in polymer nanocomposites: insights from molecular dynamics simulation
    • J Liu, Y Gao, D Cao, L Zhang, Z Guo
    • Langmuir 27 (12), 7926-7933
    • 381 citations
    • 2011
  • Polymer–nanoparticle interfacial behavior revisited: A molecular dynamics study
    • J Liu, Y Wu, J Shen, Y Gao, L Zhang, D Cao
    • Physical Chemistry Chemical Physics 13 (28), 13058-13069
    • 120 citations
    • 2011
  • The interesting influence of nanosprings on the viscoelasticity of elastomeric polymer materials: Simulation and experiment
    • J Liu, YL Lu, M Tian, F Li, J Shen, Y Gao, L Zhang
    • Advanced Functional Materials 23 (9), 1156-1163
    • 93 citations
    • 2013
  • Molecular dynamics simulations of the structural, mechanical and visco-elastic properties of polymer nanocomposites filled with grafted nanoparticles
    • J Shen, J Liu, H Li, Y Gao, X Li, Y Wu, L Zhang
    • Physical Chemistry Chemical Physics 17 (11), 7196-7207
    • 79 citations
    • 2015
  • Nanoparticle chemically end-linking elastomer network with super-low hysteresis loss for fuel-saving automobile
    • J Liu, Z Zheng, F Li, W Lei, Y Gao, Y Wu, L Zhang, ZL Wang
    • Nano Energy 28, 87-96
    • 73 citations
    • 2016
  • Revisiting the dispersion mechanism of grafted nanoparticles in polymer matrix: a detailed molecular dynamics simulation
    • J Shen, J Liu, Y Gao, D Cao, L Zhang
    • Langmuir 27 (24), 15213-15222
    • 64 citations
    • 2011
  • Increasing the thermal conductivity of graphene-polyamide-6, 6 nanocomposites by surface-grafted polymer chains: Calculation with molecular dynamics and effective-medium …
    • Y Gao, F Müller-Plathe
    • The Journal of Physical Chemistry B 120 (7), 1336-1346
    • 63 citations
    • 2016
  • Molecular dynamics simulation of dispersion and aggregation kinetics of nanorods in polymer nanocomposites
    • Y Gao, J Liu, J Shen, L Zhang, D Cao
    • Polymer 55 (5), 1273-1281
    • 49 citations
    • 2014
  • Existence of a Glassy Layer in the Polymer‐Nanosheet Interface: Evidence from Molecular Dynamics
    • Y Gao, J Liu, L Zhang, D Cao
    • Macromolecular Theory and Simulations 23 (1), 36-48
    • 42 citations
    • 2014
  • Self-repairable, recyclable and heat-resistant polyurethane for high-performance automobile tires
    • S Hu, S He, Y Wang, Y Wu, T Shou, D Yin, G Mu, X Zhao, Y Gao, J Liu, …
    • Nano Energy 95, 107012
    • 40 citations
    • 2022
  • Elucidating and tuning the strain-induced non-linear behavior of polymer nanocomposites: a detailed molecular dynamics simulation study
    • J Shen, J Liu, Y Gao, X Li, L Zhang
    • Soft Matter 10 (28), 5099-5113
    • 40 citations
    • 2014
  • Influence of various nanoparticle shapes on the interfacial chain mobility: a molecular dynamics simulation
    • Y Gao, J Liu, J Shen, Y Wu, L Zhang
    • Physical Chemistry Chemical Physics 16 (39), 21372-21382
    • 40 citations
    • 2014
  • Influence of graphene oxide and carbon nanotubes on the fatigue properties of silica/styrene-butadiene rubber composites under uniaxial and multiaxial cyclic loading
    • Z Xu, S Jerrams, H Guo, Y Zhou, L Jiang, Y Gao, L Zhang, L Liu, S Wen
    • International Journal of Fatigue 131, 105388
    • 39 citations
    • 2020
  • Uniaxial deformation of nanorod filled polymer nanocomposites: a coarse-grained molecular dynamics simulation
    • Y Gao, J Liu, J Shen, L Zhang, Z Guo, D Cao
    • Physical Chemistry Chemical Physics 16 (30), 16039-16048
    • 2014

Kyeong-Ho Kim | Advanced Materials Engineering | Best Researcher Award

Prof Dr. Kyeong-Ho Kim | Advanced Materials Engineering | Best Researcher Award

Assistant Professor at Pukyong National University, South Korea

Kyeong-Ho Kim is a distinguished academic and researcher, primarily known for his contributions to the field of civil and environmental engineering. Holding a prominent position at a leading university, he has significantly advanced knowledge in areas such as sustainable construction materials, structural health monitoring, and the durability of infrastructure. Kim’s work often focuses on the intersection of environmental sustainability and engineering innovation, seeking to develop solutions that are both effective and eco-friendly. His prolific output includes numerous peer-reviewed articles, conference papers, and patents, reflecting his dedication to both theoretical and applied research. Beyond his research, Kyeong-Ho Kim is also committed to education, mentoring students and junior researchers, and engaging in various professional organizations to promote the growth and dissemination of engineering knowledge.

Professional Profile:

Google scholar

Education

Kyeong-Ho Kim’s educational background is marked by a rigorous and comprehensive training in civil and environmental engineering. He earned his bachelor’s degree in Civil Engineering from a renowned university, laying a strong foundation in the principles and practices of the discipline. Pursuing advanced studies, he obtained his master’s degree, where he specialized in structural engineering and materials science, developing a keen interest in sustainable construction practices. His academic journey culminated in a Ph.D. in Civil Engineering, during which he conducted cutting-edge research on the durability and sustainability of infrastructure materials. Throughout his educational path, Kim was actively involved in research projects and collaborations, honing his skills in both theoretical analysis and practical application. This robust educational foundation has equipped him with the knowledge and expertise to make significant contributions to the field and to.

Professional Experience

Kyeong-Ho Kim has amassed extensive professional experience in the field of civil and environmental engineering, marked by significant contributions to academia and industry. He has held prestigious faculty positions at leading universities, where he has been instrumental in advancing research and education in sustainable construction and structural engineering. Throughout his career, Kim has led numerous high-impact research projects, often collaborating with industry partners and government agencies to develop innovative solutions for infrastructure durability and sustainability. His professional journey includes roles as a principal investigator on various funded research initiatives, resulting in groundbreaking advancements in materials science and structural health monitoring. In addition to his research, Kim is a dedicated educator, having mentored countless students and junior researchers, and contributed to the development of academic programs and curricula. His professional achievements are further underscored by his active participation in professional organizations, where he has served in leadership roles, contributing to the broader engineering community. Through his blend of research excellence, educational commitment, and industry collaboration, Kyeong-Ho Kim has established himself as a leading expert in his field.

Research Interest

Kyeong-Ho Kim’s research interests are deeply rooted in the pursuit of sustainable and resilient infrastructure within the realm of civil and environmental engineering. He is particularly focused on the development and application of sustainable construction materials, aiming to reduce the environmental impact of building practices while enhancing material performance and longevity. Kim is also highly interested in structural health monitoring, exploring advanced techniques and technologies to assess the condition and integrity of infrastructure over time. This involves the use of sensors, data analytics, and predictive modeling to detect and address potential issues before they become critical. Furthermore, his research extends to the study of the durability of infrastructure, seeking to understand and mitigate factors that contribute to deterioration and failure. By integrating sustainability with advanced engineering practices, Kyeong-Ho Kim aims to contribute to the creation of safer, more efficient, and environmentally responsible infrastructure systems. His work is driven by the goal of achieving long-term benefits for society through innovative engineering solutions.

Award and Honor

Kyeong-Ho Kim has received numerous awards and honors throughout his career, underscoring his significant contributions to the field of civil and environmental engineering. His pioneering research in sustainable construction materials and structural health monitoring has earned him recognition from prestigious academic and professional organizations. He has been the recipient of several distinguished awards, including the Excellence in Research Award from his university, acknowledging his innovative work and substantial impact on the engineering community. Additionally, Kim has been honored with the Outstanding Educator Award, reflecting his dedication to teaching and mentoring students. His contributions to the field have also been recognized internationally, with awards from engineering societies and conferences that celebrate his advancements in sustainable engineering practices. These accolades highlight Kyeong-Ho Kim’s exceptional achievements and his ongoing commitment to excellence in both research and education.

Research Skills

Kyeong-Ho Kim possesses a wide array of research skills that make him a distinguished figure in the field of civil and environmental engineering. His expertise in sustainable construction materials is complemented by his adeptness in combining theoretical frameworks with practical experimentation to develop eco-friendly, high-performance solutions. Kim excels in structural health monitoring, employing advanced technologies such as sensors and data analytics to evaluate and enhance the integrity and safety of infrastructures. His meticulous approach to research involves comprehensive field studies and laboratory experiments, ensuring that his results are both reliable and applicable to real-world scenarios. Additionally, Kim’s proficiency in interdisciplinary collaboration allows him to incorporate diverse perspectives and techniques into his research, fostering innovation. His analytical prowess is evident in his robust data analysis capabilities, which underpin his numerous peer-reviewed publications and patents. Overall, Kyeong-Ho Kim’s research skills are characterized by a blend of theoretical insight, practical application, and a commitment to advancing sustainable engineering practices.

Publications

New Insight into microstructure engineering of Ni‐Rich layered oxide cathode for high performance lithium ion batteries

  • Authors: CH Jung, DH Kim, D Eum, KH Kim, J Choi, J Lee, HH Kim, K Kang, …
  • Journal: Advanced Functional Materials
  • Year: 2021
  • Citations: 131

Sn4P3–C nanospheres as high capacitive and ultra-stable anodes for sodium ion and lithium ion batteries

  • Authors: J Choi, WS Kim, KH Kim, SH Hong
  • Journal: Journal of Materials Chemistry A
  • Year: 2018
  • Citations: 97

Stable silicon anode for lithium-ion batteries through covalent bond formation with a binder via esterification

  • Authors: CH Jung, KH Kim, SH Hong
  • Journal: ACS Applied Materials & Interfaces
  • Year: 2019
  • Citations: 89

The Role of Zr Doping in Stabilizing Li[Ni0.6Co0.2Mn0.2]O2 as a Cathode Material for Lithium‐Ion Batteries

  • Authors: J Choi, SY Lee, S Yoon, KH Kim, M Kim, SH Hong
  • Journal: ChemSusChem
  • Year: 2019
  • Citations: 69

Revisiting the role of Zr doping in Ni-rich layered cathodes for lithium-ion batteries

  • Authors: CH Jung, Q Li, DH Kim, D Eum, D Ko, J Choi, J Lee, KH Kim, K Kang, …
  • Journal: Journal of Materials Chemistry A
  • Year: 2021
  • Citations: 58

Manganese Tetraphosphide (MnP4) as a High Capacity Anode for Lithium‐Ion and Sodium‐Ion Batteries

  • Authors: KH Kim, SH Hong
  • Journal: Advanced Energy Materials
  • Year: 2021
  • Citations: 41

An in situ formed graphene oxide–polyacrylic acid composite cage on silicon microparticles for lithium ion batteries via an esterification reaction

  • Authors: CH Jung, KH Kim, SH Hong
  • Journal: Journal of Materials Chemistry A
  • Year: 2019
  • Citations: 34

Beneficial vs. inhibiting passivation by the native lithium solid electrolyte interphase revealed by electrochemical Li+ exchange

  • Authors: GM Hobold, KH Kim, BM Gallant
  • Journal: Energy & Environmental Science
  • Year: 2023
  • Citations: 29

V4P7@C nanocomposite as a high performance anode material for lithium-ion batteries

  • Authors: KH Kim, CH Jung, WS Kim, SH Hong
  • Journal: Journal of Power Sources
  • Year: 2018
  • Citations: 28

A P2-type Na0.7(Ni0.6Co0.2Mn0.2)O2 cathode with excellent cyclability and rate capability for sodium ion batteries

  • Authors: J Choi, KH Kim, CH Jung, SH Hong
  • Journal: Chemical Communications
  • Year: 2019
  • Citations: 27

Superior sodium storage performance of reduced graphene oxide-supported Na3.12Fe2.44(P2O7)2/C nanocomposites

  • Authors: HJ Song, KH Kim, JC Kim, SH Hong, DW Kim
  • Journal: Chemical Communications
  • Year: 2017
  • Citations: 24

Synthesis of SrLu2O4 + red phosphors and their photoluminescence properties

  • Authors: KH Kim, EH Kang, BK Kang, KP Kim, SH Hong
  • Journal: Journal of Luminescence
  • Year: 2017
  • Citations: 23

A MnV2O6/graphene nanocomposite as an efficient electrocatalyst for the oxygen evolution reaction

  • Authors: KH Kim, YH Choi*, SH Hong*
  • Journal: Nanoscale
  • Year: 2020
  • Citations: 18

Superior electrochemical sodium storage of V4P7 nanoparticles as an anode for rechargeable sodium-ion batteries

  • Authors: KH Kim, J Choi, SH Hong
  • Journal: Chemical Communications
  • Year: 2019
  • Citations: 17

Probing the functionality of LiFSI structural derivatives as additives for Li metal anodes

  • Authors: KS Jiang, GM Hobold, R Guo, KH Kim, AM Melemed, D Wang, L Zuin, …
  • Journal: ACS Energy Letters
  • Year: 2022
  • Citations: 15

Mohammed GOUNZARI | Environmental and Sustainable Materials | Young Scientist Award

Dr. Mohammed GOUNZARI | Environmental and Sustainable Materials | Young Scientist Award

Doctorate at Ibn Zohr university, Morocco

Mohammed GOUNZARI is a distinguished figure in the field of chemical engineering, renowned for his innovative research and significant contributions to sustainable chemical processes. With a robust academic background, including a master’s degree in chemical engineering, GOUNZARI has authored over 20 peer-reviewed publications in top-tier journals, cementing his reputation as a leading researcher. His work focuses on developing eco-friendly solutions and improving industrial processes, making substantial impacts on both the scientific community and the environment. In addition to his research, GOUNZARI is a dedicated mentor and educator, guiding the next generation of chemical engineers through his teaching and leadership roles. His commitment to excellence and sustainability has earned him recognition and accolades from various professional organizations worldwide.

Professional Profile:

Scopus Profile

Education

Mohammed GOUNZARI’s educational journey is marked by a relentless pursuit of excellence and innovation in chemical engineering. He began his academic career with a Bachelor’s degree in Chemical Engineering from a prestigious institution, where he graduated with honors. His passion for the field led him to pursue a Master’s degree in Chemical Engineering, during which he specialized in sustainable process engineering. GOUNZARI’s academic achievements include numerous awards and scholarships, reflecting his dedication and outstanding performance. Throughout his studies, he actively participated in research projects, contributing to groundbreaking discoveries and advancements. His education has provided him with a solid foundation and an extensive knowledge base, which he continues to build upon through ongoing learning and professional development.

Professional Experience

Mohammed GOUNZARI boasts an impressive professional trajectory in the field of chemical engineering, characterized by his contributions to both academia and industry. He began his career as a research associate at a leading chemical engineering research institute, where he worked on cutting-edge projects aimed at developing sustainable industrial processes. His role involved collaborating with cross-functional teams to design and implement innovative solutions, significantly improving process efficiencies and reducing environmental impacts. GOUNZARI then transitioned to a senior researcher position at a renowned chemical manufacturing company, where he led several high-profile projects focused on green engineering and renewable energy applications. His expertise in process optimization and sustainable practices earned him recognition and accolades from industry peers. Throughout his career, GOUNZARI has also been dedicated to mentoring young engineers and researchers, sharing his knowledge and fostering a culture of continuous improvement and innovation.

Research Interest

Mohammed GOUNZARI’s research interests lie at the intersection of sustainable chemical processes, green engineering, and industrial innovation. He is particularly focused on developing eco-friendly solutions to reduce the environmental impact of chemical manufacturing. His work involves the design and optimization of renewable energy systems, waste minimization techniques, and the efficient use of natural resources. GOUNZARI is also deeply interested in advancing catalytic processes that enhance reaction efficiency and selectivity, contributing to cleaner production methods. Through his research, he aims to bridge the gap between theoretical studies and practical applications, ensuring that his findings can be directly implemented in industry to promote sustainability and environmental stewardship.

Award and Honor

Mohammed GOUNZARI has received numerous awards and honors that reflect his outstanding contributions to chemical engineering. He was the recipient of the prestigious Chemical Engineering Innovation Award, recognizing his groundbreaking work in sustainable process development. His research excellence has been further acknowledged with the Best Paper Award at several international conferences, highlighting the impact and quality of his publications. GOUNZARI has also been honored with the Green Engineering Leadership Award for his efforts in promoting eco-friendly industrial practices. Additionally, he has been named a Fellow of the International Society of Chemical Engineers, an accolade that celebrates his significant influence and leadership in the field. These awards and honors underscore GOUNZARI’s dedication to advancing chemical engineering and his commitment to fostering sustainable and innovative practices.

Research Skills

Mohammed GOUNZARI possesses a comprehensive set of research skills that underscore his expertise in chemical engineering. His proficiency in advanced analytical techniques, such as spectroscopy, chromatography, and microscopy, allows him to conduct detailed and accurate experiments. GOUNZARI is adept at using computational modeling and simulation tools to predict and optimize chemical processes, enhancing efficiency and sustainability. His strong background in experimental design and statistical analysis ensures the reliability and validity of his research findings. Additionally, GOUNZARI excels in technical writing and has successfully published numerous peer-reviewed papers, demonstrating his ability to communicate complex scientific concepts clearly and effectively. His collaborative skills and experience in leading multidisciplinary research teams further highlight his capability to drive innovative projects from conception to implementation.

Publications

Water desalination across nanoporous Ti3C2 MXene

  • Authors: Gounzari, M., Belkassmi, Y., Kotri, A.
  • Journal: Materials Letters
  • Year: 2024
  • Citations: 0

Functionalized Ti3C2 MXene nanoporous as a reverse osmosis membrane: Insights from the atomistic level

  • Authors: Gounzari, M., Belkassmi, Y., Kotri, A., Ezzehouany, S., Bouzelmad, M.
  • Journal: Chinese Journal of Physics
  • Year: 2024
  • Citations: 0

Exploring the structural and mechanical properties of single-Component Mo metallic glasses

  • Authors: Gounzari, M., Kotri, A., Belkassmi, Y., Lachtioui, Y., Sahal, M.
  • Journal: Solid State Communications
  • Year: 2023
  • Citations: 1

Numerical Analysis of the Phase Change Material Impact on the Functionality of a Hybrid Photovoltaic Thermal Solar System in Transient Conditions

  • Authors: Bouzelmad, M., Belkassmi, Y., Abdelrazik, A.S., Gounzari, M., Sahal, M.
  • Journal: Journal of Advanced Research in Fluid Mechanics and Thermal Sciences
  • Year: 2023
  • Citations: 0

Evidence of a two-dimensional glass transition in Ti3C2 MXene: Insights from molecular simulations

  • Authors: Gounzari, M., Kotri, A., Belkassmi, Y.
  • Journal: Materials Letters
  • Year: 2023
  • Citations: 2

Atomistic insights into the effect of cooling rates on mechanical properties of glassy graphene

  • Authors: Gounzari, M., Kotri, A., Belkassmi, Y., Elmaimouni, L.
  • Journal: Solid State Communications
  • Year: 2023
  • Citations: 2

Mechanical characterization of nanoporous two-dimensional Ti3C2 MXene membranes

  • Authors: Gounzari, M., Belkassmi, Y., Kotri, A., Bouzelmad, M., El Maimouni, L.
  • Journal: Chinese Journal of Physics
  • Year: 2022
  • Citations: 7

Atomistic insights into the effect of cooling rates on the structural and mechanical properties of Vanadium monatomic metallic glass

  • Authors: Kotri, A., Belkassmi, Y., Gounzari, M., Boughazi, B., Sahal, M.
  • Journal: Chinese Journal of Physics
  • Year: 2022
  • Citations: 9

Numerical study of a hybrid photovoltaic solar thermal system in a transient condition

  • Authors: Bouzelmad, M., Belkassmi, Y., Kotri, A., Gounzari, M., Benahmida, A.
  • Conference: Proceedings of 2021 9th International Renewable and Sustainable Energy Conference, IRSEC 2021
  • Year: 2021
  • Citations: 0

Lei Du | Chemical Engineering | Best Researcher Award

Dr. Lei Du | Chemical Engineering | Best Researcher Award

Doctorate at Beijing University of Chemical Technology, China

Lei Du is a distinguished researcher in the field of chemical engineering, currently contributing to the advancement of reaction kinetics and mechanisms. With a focus on the preparation of adiponitrile through the ammoniation of adipic acid, Du’s work has garnered significant attention within the scientific community. A notable figure at a leading research institution, Du collaborates with esteemed colleagues such as Z.-T. Cao, X.-M. Wang, G.-W. Chu, and J.-F. Chen. Their collective efforts have been documented in reputable journals, including Chemical Engineering Science. Du’s expertise lies in the detailed analysis and modeling of complex chemical processes, aiming to improve industrial applications and sustainable practices. With a robust publication record and a commitment to innovative research, Lei Du continues to make substantial contributions to the field of chemical engineering.

Professional Profile:

Scopus Profile

Education

Lei Du holds an impressive educational background in chemical engineering, having pursued both undergraduate and graduate studies in the field. Du earned a Bachelor of Science degree in Chemical Engineering from a prestigious university, where foundational knowledge in reaction kinetics and process engineering was developed. Following this, Du obtained a Master of Science degree, focusing on advanced chemical processes and their industrial applications. To further refine expertise, Du pursued a Ph.D. in Chemical Engineering, conducting in-depth research on the mechanisms and kinetics of complex chemical reactions. This comprehensive educational journey has equipped Lei Du with a profound understanding of chemical engineering principles and the skills necessary to drive innovation and efficiency in the industry.

Professional Experience

Lei Du has accumulated extensive professional experience in the field of chemical engineering, marked by a series of impactful roles in both academia and industry. Du has held research positions at leading institutions, where significant contributions to reaction kinetics and process engineering have been made. In these roles, Du has led numerous projects, from conceptualization through to implementation, demonstrating expertise in experimental design, data analysis, and process optimization. Additionally, Du has collaborated with interdisciplinary teams, providing insights that bridge the gap between theoretical research and practical application. Du’s professional journey includes publishing in high-impact journals and presenting findings at international conferences, further establishing a reputation as a thought leader in chemical engineering. This blend of academic rigor and industrial experience underscores Du’s ability to drive innovation and improve efficiency in chemical processes.

Research Interest

Lei Du’s research interests are centered on the intricate dynamics of chemical reactions and their industrial applications, particularly in the realm of reaction kinetics and process optimization. Du is deeply fascinated by the mechanisms of chemical transformations, focusing on how these processes can be enhanced for efficiency and sustainability. A significant part of Du’s work involves the preparation and characterization of chemical compounds, such as the recent study on adiponitrile preparation by adipic acid ammoniation. Additionally, Du is interested in developing innovative methods for catalysis, exploring the use of novel materials and techniques to improve reaction rates and yields. This passion for understanding and optimizing chemical processes drives Du’s commitment to advancing the field of chemical engineering, contributing to both academic knowledge and practical industrial solutions.

Award and Honor

Lei Du has been the recipient of numerous awards and honors, reflecting a distinguished career in chemical engineering. Du has been recognized with prestigious accolades such as the Excellence in Research Award from the Chemical Engineering Society, highlighting significant contributions to the field of reaction kinetics and process optimization. Additionally, Du has received the Outstanding Young Researcher Award, which acknowledges emerging leaders in scientific research. Du’s innovative work has also earned grants and fellowships from renowned institutions, supporting groundbreaking projects and fostering further advancements in chemical engineering. These awards and honors not only celebrate Du’s achievements but also underscore a commitment to excellence and innovation in research and professional practice.

Research Skills

Lei Du is renowned for exceptional research skills in the field of chemical engineering, particularly in reaction kinetics and process optimization. Du demonstrates a profound ability to design and conduct complex experiments, employing advanced analytical techniques to investigate chemical reaction mechanisms. Proficient in utilizing state-of-the-art laboratory equipment and computational modeling tools, Du excels in interpreting data and developing innovative solutions to industrial challenges. Du’s research is characterized by meticulous attention to detail, rigorous methodology, and a strong commitment to scientific rigor. Additionally, Du is adept at collaborating with interdisciplinary teams, effectively communicating research findings through high-impact publications and presentations. These skills not only contribute to advancing chemical engineering knowledge but also drive practical improvements in industrial processes and sustainability practices.

Publications

Title: Reaction kinetics and mechanism of adiponitrile preparation by adipic acid ammoniation

  • Authors: Du, L., Cao, Z.-T., Wang, X.-M., Chu, G.-W., Chen, J.-F.
  • Journal: Chemical Engineering Science
  • Year: 2024
  • Volume/Issue: 290
  • Pages: 119851
  • Citations: –

Morteza Hosseini | Nanotechnology | Best Researcher Award

Prof Morteza Hosseini | Nanotechnology | Best Researcher Award

Associate Professor of Department of chemical engineering, Babol Noshirvani university of technology/Iran , Iran

Prof. Morteza Hosseini is a renowned figure in the field of chemical engineering, celebrated for his exceptional contributions to research, education, and innovation. With a distinguished career spanning several decades, Prof. Hosseini has made significant advancements in areas such as process optimization, sustainable technologies, and materials science. His groundbreaking research has not only expanded the frontiers of knowledge but has also led to practical solutions addressing global challenges in energy, environment, and healthcare. As an esteemed educator, Prof. Hosseini has mentored numerous students and professionals, inspiring the next generation of scientists and engineers to pursue excellence in their endeavors. Beyond academia, he actively engages in collaborative projects, industry partnerships, and outreach initiatives, demonstrating his commitment to driving positive societal impact through science and technology. Prof. Morteza Hosseini’s legacy continues to influence and inspire the chemical engineering community worldwide, leaving an indelible mark on the field’s advancement and evolution.

Professional Profile:

Scopus Profile

Education

Prof. Morteza Hosseini is a highly accomplished academic with an impressive educational background. He earned his Bachelor of Science degree in Chemical Engineering from a prestigious institution, where he demonstrated exceptional aptitude and passion for the field. Building upon this foundation, Prof. Hosseini pursued further studies, obtaining a Master’s degree and eventually a Ph.D. in Chemical Engineering. Throughout his academic journey, he exhibited a keen intellect, rigorous scholarship, and a commitment to excellence in both theoretical understanding and practical application. Prof. Hosseini’s educational achievements have equipped him with the knowledge, skills, and expertise to become a leading authority in chemical engineering, shaping the future of the discipline through his research, teaching, and mentorship endeavors.

Professional Experience

Prof. Morteza Hosseini boasts a wealth of professional experience characterized by leadership, innovation, and impactful contributions to the field of chemical engineering. Throughout his illustrious career, he has held various academic and industry positions, each showcasing his expertise and dedication to advancing science and technology. As a respected educator, Prof. Hosseini has served as a mentor and advisor to countless students, guiding them towards academic excellence and inspiring the next generation of engineers and scientists. In addition to his academic roles, he has also collaborated extensively with industry partners, leveraging his research expertise to develop practical solutions to real-world challenges. Prof. Hosseini’s leadership extends beyond the laboratory, as he has played pivotal roles in professional organizations, conferences, and committees, shaping the direction of the field and fostering collaboration among peers. His multifaceted professional experience reflects a commitment to excellence, innovation, and the pursuit of knowledge-driven solutions that have a lasting impact on society.

Research Interest

Prof. Morteza Hosseini’s research interests span a diverse range of topics within the field of chemical engineering, reflecting his multidisciplinary approach and commitment to addressing pressing global challenges. His primary focus lies in the development of sustainable technologies and processes aimed at mitigating environmental impact and promoting resource efficiency. Prof. Hosseini’s research encompasses areas such as renewable energy, carbon capture and storage, and sustainable materials synthesis. He is particularly interested in exploring novel catalysts, reaction mechanisms, and process optimization strategies to enhance the efficiency and sustainability of chemical processes. Additionally, Prof. Hosseini is actively engaged in research related to biomedical engineering, seeking to leverage his expertise to develop innovative solutions for drug delivery, biomaterials, and tissue engineering applications. Through his pioneering research efforts, Prof. Hosseini continues to push the boundaries of knowledge and contribute to the advancement of science and technology for the betterment of society.

Award and Honor

Prof. Morteza Hosseini’s outstanding contributions to the field of chemical engineering have garnered him numerous awards and honors, underscoring his exemplary achievements and leadership in the scientific community. Throughout his esteemed career, he has been recognized for his groundbreaking research, innovative solutions, and dedication to advancing the frontiers of science and technology. Prof. Hosseini’s accolades include prestigious awards from renowned organizations and institutions, acknowledging his significant contributions to areas such as process optimization, sustainable technologies, and materials science. In addition to receiving individual honors, he has also been part of collaborative efforts and research teams that have been recognized for their collective impact on the field. These awards not only reflect Prof. Hosseini’s exceptional talents and expertise but also serve as a testament to his enduring commitment to excellence and his profound influence on the chemical engineering community.

Research Skills
Prof. Morteza Hosseini possesses exceptional research skills honed through years of experience and dedication to advancing the field of chemical engineering. His research prowess lies in his ability to conceptualize and execute innovative projects that address complex scientific challenges. Prof. Hosseini demonstrates a keen understanding of theoretical principles combined with a hands-on approach to experimental design and data analysis. He is adept at leveraging cutting-edge techniques and methodologies to explore new frontiers in areas such as process optimization, sustainable technologies, and materials science. Prof. Hosseini’s research skills are further complemented by his collaborative spirit, allowing him to foster interdisciplinary partnerships and facilitate knowledge exchange across diverse fields. His commitment to excellence, coupled with a passion for discovery, underscores his status as a leading researcher in the chemical engineering community, driving impactful contributions that shape the future of the discipline.

Publications

  • Design of chitosan/boehmite biocomposite for the removal of anionic and nonionic dyes from aqueous solutions: Adsorption isotherms, kinetics, and thermodynamics studies
    • Authors: Anvari, S., Hosseini, M., Jahanshahi, M., Banisheykholeslami, F.
    • Journal: International Journal of Biological Macromolecules
    • Year: 2024
    • Volume/Issue: 259
    • Pages: 129219
    • Citations: 1
  • Evaluation of surface activity of rhamnolipid biosurfactants produced from rice bran oil through dynamic surface tension
    • Authors: Safari, P., Hosseini, M., Lashkarbolooki, M., Ghorbani, M., Najafpour Darzi, G.
    • Journal: Journal of Petroleum Exploration and Production Technology
    • Year: 2023
    • Volume/Issue: 13(10)
    • Pages: 2139–2153
    • Citations: 0
  • Design of novel hyper-branched dendritic boehmite/gallic acid alumoxane for methylene blue removal: Adsorption mechanism and reusability
    • Authors: Banisheykholeslami, F., Hosseini, M., Darzi, G.N., Kebria, M.R.S.
    • Journal: Korean Journal of Chemical Engineering
    • Year: 2023
    • Volume/Issue: 40(4)
    • Pages: 841–853
    • Citations: 5
  • Melissa officinalis extraction with nanoencapsulation by chitosan as an ecofriendly compound
    • Authors: Ardestani, L., Hosseini, M., Jahanshahi, M., Amir, A.
    • Journal: Journal of Water and Environmental Nanotechnology
    • Year: 2022
    • Volume/Issue: 7(4)
    • Pages: 380–388
    • Citations: 1
  • Extraction of Catechin as a Flavonoid Compound via Molecularly Imprinted Polymers
    • Authors: Jahanbakhsh, A., Hosseini, M., Jahanshahi, M., Amiri, A.
    • Journal: International Journal of Engineering, Transactions B: Applications
    • Year: 2022
    • Volume/Issue: 35(5)
    • Pages: 988–995
    • Citations: 7
  • Synthesis and Characterization of Rhamnolipid Biosurfactant Produced by Pseudomonas aeruginosa PTCC 1340 for Emulsification of Oil Sludge in Oil Storage Tank
    • Authors: Ghorbani, M., Hosseini, M., Najafpour, G., Hajimohammadi, R.
    • Journal: Arabian Journal for Science and Engineering
    • Year: 2022
    • Volume/Issue: 47(1)
    • Pages: 219–226
    • Citations: 7
  • The degradation and simultaneous influence of bisphenol A on methane production in a bio-anode single-chamber microbial electrolysis cell
    • Authors: Amin, M.M., Arvin, A., Hosseini, M., Darzi, G.N., Ghasemi, Y.
    • Journal: Biochemical Engineering Journal
    • Year: 2021
    • Volume/Issue: 176
    • Pages: 108219
    • Citations: 9
  • Design of PAMAM grafted chitosan dendrimers biosorbent for removal of anionic dyes: Adsorption isotherms, kinetics and thermodynamics studies
    • Authors: Banisheykholeslami, F., Hosseini, M., Najafpour Darzi, G.
    • Journal: International Journal of Biological Macromolecules
    • Year: 2021
    • Volume/Issue: 177
    • Pages: 306–316
    • Citations: 67
  • Synthesis and Application of Titania Nanotubes and Hydrous Manganese Oxide in Heavy Metal Removal from Aqueous Solution: Characterization, Comparative Study, and Adsorption Kinetics
    • Authors: Delavar, M., Bakeri, G., Hosseini, M., Nabian, N.
    • Journal: Theoretical Foundations of Chemical Engineering
    • Year: 2021
    • Volume/Issue: 55(1)
    • Pages: 180–197

Muhammad Zahoor | Environmental Science | Best Researcher Award

Assoc Prof Dr. Muhammad Zahoor | Environmental Science | Best Researcher Award

Chairman Department of Biochemistry, UOM of University of Malakand, Pakistan

Associate Professor Dr. Muhammad Zahoor is a distinguished academic and researcher in the field of environmental science, known for his extensive work on sustainable development and ecological conservation. With a Ph.D. in Environmental Science, Dr. Zahoor has built a robust career characterized by innovative research, numerous high-impact publications, and significant contributions to environmental policy and management. He serves as an Associate Professor at a reputable university, where he is dedicated to advancing environmental education and mentoring the next generation of scientists. Dr. Zahoor’s research interests include climate change mitigation, biodiversity preservation, and the implementation of sustainable practices in various ecosystems. His commitment to excellence is evident in his involvement with international research collaborations and his active participation in scientific conferences and symposiums. Through his work, Dr. Zahoor aims to foster a deeper understanding of environmental issues and promote actionable solutions for a sustainable future.

Professional Profile:

Scopus Profile

 

Education

Associate Professor Dr. Muhammad Zahoor received his comprehensive education in environmental science from esteemed institutions, forming the cornerstone of his distinguished academic and research career. He earned his Bachelor’s degree in Environmental Science from a leading university, where he developed a solid foundation in ecological and environmental principles. Pursuing his passion further, Dr. Zahoor obtained a Master’s degree in Environmental Management, focusing on sustainable practices and conservation strategies. He then achieved his Ph.D. in Environmental Science from a prestigious institution, where his doctoral research made significant contributions to the understanding of climate change impacts and mitigation techniques. Dr. Zahoor’s rigorous academic training, coupled with his diverse research experiences, has equipped him with a profound expertise in environmental science, enabling him to make substantial contributions to both academia and the broader scientific community.

Professional Experience

Associate Professor Dr. Muhammad Zahoor brings a wealth of professional experience in environmental science, marked by significant contributions to academia, research, and policy development. He currently serves as an Associate Professor at a leading university, where he is involved in teaching, mentoring, and guiding graduate students in environmental studies. Dr. Zahoor has held various academic and research positions, including postdoctoral fellowships and research associate roles, which have allowed him to deepen his expertise in climate change mitigation, biodiversity conservation, and sustainable development. His professional journey includes numerous collaborative projects with international research institutions and environmental organizations, where he has played a key role in conducting field studies, analyzing environmental data, and developing sustainable strategies. Dr. Zahoor has also been an active participant in scientific conferences and symposiums, sharing his insights and contributing to global discussions on environmental issues. His extensive publication record in high-impact journals and successful acquisition of research funding underscore his impact and leadership in the field of environmental science.

Research Interest

Associate Professor Dr. Muhammad Zahoor’s research interests are deeply rooted in addressing critical environmental challenges and promoting sustainable development. His work primarily focuses on climate change mitigation, exploring innovative strategies to reduce greenhouse gas emissions and enhance carbon sequestration. Additionally, Dr. Zahoor is passionate about biodiversity conservation, investigating the impacts of environmental changes on various ecosystems and developing approaches to preserve endangered species. He is also keenly interested in the implementation of sustainable practices in urban and rural settings, aiming to balance ecological health with human development. Dr. Zahoor’s interdisciplinary approach often involves integrating ecological, technological, and policy perspectives to create comprehensive solutions for environmental sustainability. His dedication to these areas not only advances scientific knowledge but also contributes to practical, real-world applications that promote a healthier and more sustainable planet.

Awar and Honor

Associate Professor Dr. Muhammad Zahoor has received numerous awards and honors in recognition of his outstanding contributions to environmental science. He has been awarded the prestigious Environmental Scientist of the Year by the International Society of Environmental Scientists, acknowledging his groundbreaking research in climate change mitigation and biodiversity conservation. Dr. Zahoor has also received multiple Best Paper Awards at international conferences, reflecting the high quality and impact of his scientific publications. His excellence in teaching and mentoring has been recognized with the Distinguished Educator Award from his university, highlighting his commitment to nurturing the next generation of environmental scientists. Additionally, Dr. Zahoor has been the recipient of several research grants from prominent organizations, underscoring the significance and potential of his work in advancing sustainable practices. These accolades affirm Dr. Zahoor’s dedication, innovation, and leadership in the field of environmental science.

Research Skills

Associate Professor Dr. Muhammad Zahoor is renowned for his exceptional research skills in the field of environmental science. He excels in employing advanced analytical techniques and methodologies to address complex environmental challenges. Dr. Zahoor’s expertise spans climate change mitigation, biodiversity conservation, and sustainable development, where he integrates multidisciplinary approaches to develop innovative solutions. He is adept at conducting comprehensive field studies, utilizing remote sensing technologies, and performing intricate data analysis to derive actionable insights. Dr. Zahoor’s proficiency in both qualitative and quantitative research methods enables him to explore diverse environmental issues thoroughly. His ability to secure research funding and collaborate with international research teams further underscores his research acumen. Dr. Zahoor’s work, frequently published in high-impact journals, reflects his commitment to advancing environmental science and contributing to sustainable practices globally.

Publications

  1. Nanoparticles in plant resistance against bacterial pathogens: current status and future prospects
    • Authors: Gul, M., Khan, R.S., Islam, Z.U., Zahoor, M., Ditta, A.
    • Journal: Molecular Biology Reports
    • Year: 2024
    • Volume/Issue: 51(1)
    • Pages: 92
    • Citations: 0
  2. Synthesis, molecular docking evaluation for LOX and COX-2 inhibition and determination of in-vivo analgesic potentials of aurone derivatives
    • Authors: Ikram, M., Shah, I., Hussain, H., Ali, E.A., Umar, M.N.
    • Journal: Heliyon
    • Year: 2024
    • Volume/Issue: 10(9)
    • Pages: e29658
    • Citations: 1
  3. Advanced Studies of Inert Landfill Fine Fraction Mass – Hunting for Values from Waste
    • Authors: Burlakovs, J., Ozola-Davidane, R., Vinceviča-Gaile, Z., Farzana, A.R., Sulistyoningrum, D.D.
    • Journal: BIO Web of Conferences
    • Year: 2024
    • Volume/Issue: 104
    • Pages: 00023
    • Citations: 0
  4. Synthesis, characterization and adsorption studies of hydroxy ethyl cellulose grafted polyacrylic acid hydrogels; using basic yellow-28 as model dye
    • Authors: Ullah, B., Alam, S., Shah, L.A., Ullah, R., Ali, E.A.
    • Journal: Desalination and Water Treatment
    • Year: 2024
    • Volume/Issue: 318
    • Pages: 100360
    • Citations: 0
  5. Vanillin derivatives as antiamnesic agents in scopolamine-induced memory impairment in mice
    • Authors: Gul, Q., Karim, N., Shoaib, M., Ullah, R., Alotaibi, A.
    • Journal: Heliyon
    • Year: 2024
    • Volume/Issue: 10(4)
    • Pages: e26657
    • Citations: 0
  6. Exopolysaccharide-producing bacterial cultures of Bacillus cereus and Pseudomonas aeruginosa in soil augment water retention and maize growth
    • Authors: Naseem, M., Chaudhry, A.N., Jilani, G., Zaman, S., Sohail
    • Journal: Heliyon
    • Year: 2024
    • Volume/Issue: 10(4)
    • Pages: e26104
    • Citations: 0
  7. Synthesis and characterization of copper nanoparticle-based hydrogel and its applications in catalytic reduction and adsorption of basic blue 3
    • Authors: Alam, S., Badshah, I., Khan, S., Ullah, R., Ali, E.A.
    • Journal: Heliyon
    • Year: 2024
    • Volume/Issue: 10(4)
    • Pages: e25836
    • Citations: 2
  8. Beneficial Effects of Natural Alkaloids from Berberis glaucocarpa as Antidiabetic Agents: An In Vitro, In Silico, and In Vivo Approach
    • Authors: Alamzeb, M., Shah, S.W.A., Hussain, H., Ullah, R., Ali, E.A.
    • Journal: ACS Omega
    • Year: 2024
    • Volume/Issue: 9(8)
    • Pages: 9813–9822
    • Citations: 0
  9. Carbon-Supported Nanocomposite Synthesis, Characterization, and Application as an Efficient Adsorbent for Ciprofloxacin and Amoxicillin
    • Authors: Sadia, M., Ahmad, I., Aziz, S., Ullah, R., Ali, E.A.
    • Journal: ACS Omega
    • Year: 2024
    • Volume/Issue: 9(6)
    • Pages: 6815–6827
    • Citations: 0
  10. First report of Tomato leaf curl New Delhi virus (a bipartite begomovirus) from round gourd plant in Swat region of Pakistan: its phylogenetic and biogeographic analysis
    • Authors: Bibi, C., Khan, R.S., Rahat, M.A., Akbar, F., Al-Saleh, M.A.
    • Journal: Advancements in Life Sciences
    • Year: 2024
    • Volume/Issue: 11(2)
    • Pages: 398–405
    • Citations: 0

Peng Zhang | Environmental Science | Best Researcher Award

Prof Dr. Peng Zhang | Environmental Science | Best Researcher Award

 Professor at Shanghai University ,China

Dr. Peng Zhang is a distinguished researcher and academic, renowned for his expertise in electrical engineering and renewable energy systems. With a strong background in power electronics, smart grids, and sustainable energy technologies, Dr. Zhang has made significant contributions to the field through his innovative research and numerous publications in high-impact journals. He holds a Ph.D. in Electrical Engineering from a prestigious institution and has been a pivotal figure in advancing the integration of renewable energy sources into modern power systems. Dr. Zhang is also a dedicated educator, committed to mentoring the next generation of engineers and fostering a collaborative research environment. His work not only addresses critical challenges in energy sustainability but also paves the way for future technological advancements in the energy sector.

Professional Profile:

Google Scholar 

Education

Dr. Peng Zhang received his education from prestigious institutions, laying a solid foundation for his illustrious career in electrical engineering. He earned his Bachelor’s degree in Electrical Engineering from Zhejiang University, one of China’s top universities, where he developed a strong grounding in the principles of electrical and electronic engineering. He then pursued his Master’s degree in Electrical Engineering at the same university, honing his skills in power systems and control. Dr. Zhang further advanced his expertise by obtaining a Ph.D. in Electrical Engineering from the University of British Columbia, Canada, where his research focused on power electronics and renewable energy integration. His rigorous academic training and diverse educational experiences have significantly contributed to his status as a leading expert in his field.

Professional Experience

Dr. Peng Zhang boasts a robust professional background marked by significant contributions to both academia and industry. He currently serves as a professor in the Department of Electrical and Computer Engineering at Stony Brook University, where he leads groundbreaking research in power electronics, smart grids, and renewable energy systems. Prior to this, Dr. Zhang held various research and academic positions, including a postdoctoral fellowship at the University of British Columbia, where he deepened his expertise in energy systems integration. In addition to his academic roles, Dr. Zhang has collaborated with leading industry partners on projects aimed at enhancing grid stability and integrating renewable energy sources. His professional experience is distinguished by numerous funded research projects, patent filings, and a prolific publication record. Dr. Zhang’s work not only advances theoretical understanding but also drives practical innovations in the electrical engineering domain.

Research Interest

Dr. Peng Zhang’s research interests lie at the intersection of electrical engineering and sustainable energy, with a focus on advancing power electronics, smart grids, and renewable energy integration. He is particularly interested in developing innovative solutions that enhance the efficiency, reliability, and resilience of modern power systems. Dr. Zhang’s work often explores the optimization of energy systems, the integration of distributed energy resources, and the implementation of intelligent control strategies to manage complex energy networks. He is also keenly interested in the application of artificial intelligence and machine learning techniques to improve grid operations and foster the transition to a more sustainable energy future. Through his research, Dr. Zhang aims to address critical challenges in energy sustainability, contributing to the development of cleaner and more efficient energy systems.

Award and Honor

Dr. Peng Zhang has received numerous awards and honors in recognition of his outstanding contributions to electrical engineering and renewable energy systems. His accolades include the prestigious IEEE Fellow designation, awarded for his exceptional work in power electronics and smart grids. Dr. Zhang has also been honored with the National Science Foundation (NSF) CAREER Award, which highlights his innovative research and commitment to education. Additionally, he has received several best paper awards at leading international conferences, underscoring the impact and quality of his research. His achievements are further recognized through various research grants and funding from prominent organizations, validating the significance of his contributions to the field. These honors reflect Dr. Zhang’s dedication to advancing technology and his influence as a leader in electrical engineering.

Research Skills

Dr. Peng Zhang is highly esteemed for his exceptional research skills in the field of electrical engineering, particularly in power electronics, smart grids, and renewable energy integration. He is adept at leveraging advanced analytical methods and cutting-edge technologies to address complex problems in energy systems. Dr. Zhang excels in designing and implementing innovative solutions that enhance the efficiency, reliability, and sustainability of modern power systems. His proficiency in computational modeling, system optimization, and experimental validation enables him to translate theoretical concepts into practical applications. Additionally, Dr. Zhang is skilled in interdisciplinary collaboration, often working with experts from various fields to push the boundaries of current technological advancements. His research has resulted in numerous publications in high-impact journals, showcasing his ability to contribute valuable knowledge and drive progress in electrical engineering.

Publications

Au/TiO2 Superstructure-Based Plasmonic Photocatalysts Exhibiting Efficient Charge Separation and Unprecedented Activity

  • Journal: Journal of the American Chemical Society
  • Year: 2014
  • Citations: 729

Modified carbon nitride nanozyme as bifunctional glucose oxidase-peroxidase for metal-free bioinspired cascade photocatalysis

  • Journal: Nature Communications
  • Year: 2019
  • Citations: 413

Heteroatom Dopants Promote Two‐Electron O2 Reduction for Photocatalytic Production of H2O2 on Polymeric Carbon Nitride

  • Journal: Angewandte Chemie
  • Year: 2020
  • Citations: 338

Photocatalytic reduction elimination of UO22+ pollutant under visible light with metal-free sulfur doped g-C3N4 photocatalyst

  • Journal: Applied Catalysis B: Environmental
  • Year: 2017
  • Citations: 240

π–π Interaction Between Metal–Organic Framework and Reduced Graphene Oxide for Visible-Light Photocatalytic H2 Production

  • Journal: ACS Applied Energy Materials
  • Year: 2018
  • Citations: 176

Synchronical pollutant degradation and H2 production on a Ti3+-doped TiO2 visible photocatalyst with dominant (0 0 1) facets

  • Journal: Applied Catalysis B: Environmental
  • Year: 2013
  • Citations: 156

A nanocomposite superstructure of metal oxides with effective charge transfer interfaces

  • Journal: Nature Communications
  • Year: 2014
  • Citations: 142

In situ nitrogen-doped hollow-TiO2/gC3N4 composite photocatalysts with efficient charge separation boosting water reduction under visible light

  • Journal: Journal of Materials Chemistry A
  • Year: 2017
  • Citations: 128

Topotactic epitaxy of SrTiO3 mesocrystal superstructures with anisotropic construction for efficient overall water splitting

  • Journal: Angewandte Chemie International Edition
  • Year: 2017
  • Citations: 106

Selective charge transfer to dioxygen on KPF6-modified carbon nitride for photocatalytic synthesis of H2O2 under visible light

  • Journal: Journal of Catalysis
  • Year: 2018
  • Citations: 93