Dr. Chenxu Wang | Electrochemistry | Green Chemistry Award

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Dr. Chenxu Wang | Electrochemistry | Green Chemistry Award

Dr. Chenxu Wang , Electrochemistry ,Research associate at University of Texas at Dallas, United States

Dr. Chenxu Wang is a dynamic and innovative Research Associate at the BEACONS Center, University of Texas at Dallas. With a solid foundation in electrochemical energy storage, he completed his Ph.D. in 2023 from Washington State University under the mentorship of Dr. Weihong Zhong. Since 2016, he has consistently contributed to the field of battery technology, focusing on lithium-ion, lithium-metal, and sodium-ion systems. His research incorporates cutting-edge innovations such as protein-based solid-state materials for enhanced battery safety and performance. Alongside academic excellence, Dr. Wang brings hands-on experience from the battery manufacturing industry, enriching his practical insights. He has published over 18 scientific papers and is the lead author of a technical book. He actively engages with the scientific community through editorial roles and collaborations. Dr. Wang is dedicated to advancing green, safe, and high-performance battery technologies for a sustainable energy future.

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Summary of Suitability for Award:

Dr. Chenxu Wang is an exceptional candidate for the Green Chemistry Award due to his innovative integration of biological and natural materials—particularly silk fibroin proteins—into the design of advanced battery components. His work directly aligns with the principles of green chemistry. Dr. Wang has demonstrated that green materials can match or surpass traditional materials in performance. His contributions include the development of protein-based solid electrolytes, eco-friendly binders, and non-toxic separators, which not only advance battery safety and efficiency but also minimize environmental impact. Dr. Chenxu Wang’s pioneering work in applying natural biomolecules to battery technology presents a paradigm shift toward eco-conscious energy storage solutions. His holistic approach—spanning green material synthesis, automation, and recycling—makes him an ideal recipient of the “Green Chemistry Award”. His research not only addresses key environmental challenges but also offers scalable solutions for the clean energy transition.

🎓Education:

Dr. Chenxu Wang earned his Ph.D. in Materials Science and Engineering from Washington State University (WSU) in 2023, where he conducted advanced battery research under Dr. Weihong Zhong. His doctoral work focused on sustainable energy storage systems, particularly lithium-metal and lithium-sulfur batteries. During his time at WSU, he received prestigious awards recognizing both academic excellence and research contributions. Prior to his Ph.D., Dr. Wang obtained his undergraduate and possibly a master’s degree (details unspecified) in fields related to chemistry or materials science, laying the groundwork for his later specialization in electrochemical systems. His academic training has been marked by a strong emphasis on interdisciplinary problem-solving, including materials synthesis, electrochemical characterization, and green chemistry applications. Throughout his education, Dr. Wang developed a strong technical foundation and research mindset that continue to fuel his contributions to battery innovation and electrochemical energy storage.

🏢Work Experience:

Dr. Chenxu Wang is currently serving as a Research Associate at the BEACONS Center, University of Texas at Dallas, where he contributes to groundbreaking projects in next-generation battery technologies. Since 2016, he has worked extensively on battery research, accumulating a unique blend of academic and industrial experience. He previously worked in the battery manufacturing industry, where he gained hands-on experience in the development and scaling of energy storage materials and systems. During his Ph.D. at WSU, he managed several interdisciplinary research projects on solid-state electrolytes and sustainable battery materials. Dr. Wang is involved in both laboratory experimentation and theoretical modeling. In addition to his research roles, he is active in the scientific publishing ecosystem, serving on the Youth Editorial Board of Exploration and as a Guest Editor for Batteries. His contributions span project leadership, material innovation, and research communication within the energy storage field.

🏅Awards: 

Dr. Chenxu Wang has been recognized with multiple prestigious awards that highlight his exceptional academic and research performance. In 2023, he received the Outstanding Dissertation Award and the Outstanding Research Assistant Award from Washington State University, acknowledging the novelty and impact of his Ph.D. work in the field of electrochemical energy storage. These accolades are a testament to his contributions toward addressing real-world energy challenges through scientific innovation. Dr. Wang’s leadership and editorial responsibilities also reflect his growing recognition in the global research community. He currently serves as a Guest Editor for the journal Batteries and is a Youth Editorial Board Member for the journal Exploration. His research excellence and dedication to sustainable energy have also led to collaborative opportunities and growing citations (over 253 citations) across reputable journals. These honors reflect Dr. Wang’s commitment to advancing green chemistry and sustainable battery technology.

🔬Research Focus:

Dr. Chenxu Wang’s research is centered on electrochemical energy storage systems, with a strong emphasis on green chemistry, sustainability, and advanced battery materials. His innovative work involves integrating natural proteins such as silk fibroin into solid-state battery components, which significantly improve safety, ionic conductivity, and performance. He has developed protein-based solid electrolytes, binders, and separators, targeting the challenges of dendrite formation and the polysulfide shuttle effect in lithium-metal and lithium-sulfur batteries. His research also explores automated synthesis, material characterization, and battery recycling, aiming to create scalable, eco-friendly solutions for energy storage. Dr. Wang’s unique blend of academic research and industry exposure allows him to bridge theory and practice, contributing meaningfully to real-world battery innovations. His projects on high-energy-density lithium/sodium-ion batteries and advanced liquid electrolytes further reflect his comprehensive approach to solving multi-faceted challenges in next-generation energy storage.

Publication Top Notes:

A water-soluble binary conductive binder for Si anode lithium ion battery
Citations: 57

Natural protein as novel additive of a commercial electrolyte for Long-Cycling lithium metal batteries
Citations: 30

Protein-modified SEI formation and evolution in Li metal batteries
Citations: 29

A protein-enabled protective film with functions of self-adapting and anion-anchoring for stabilizing lithium-metal batteries
Citations: 26

Synthesis of β-FeOOH nanorods adhered to pine-biomass carbon as a low-cost anode material for Li-ion batteries
Citations: 20

A bioinspired coating for stabilizing Li metal batteries
Citations: 18

Promising sustainable technology for energy storage devices: Natural protein-derived active materials
Citations: 15

Incorporating SnO2 nanodots into wood flour-derived hierarchically porous carbon as low-cost anodes for superior lithium storage
Citations: 12

Interface-tailored forces fluffing protein fiber membranes for high-performance filtration
Citations: 10

Highly dispersed SnO2 nanoparticles confined on xylem fiber-derived carbon frameworks as anodes for lithium-ion batteries
Citations: 7

An amino acid-enabled separator for effective stabilization of Li anodes
Citations: 6

Effects of Anions and Protein Structures on Protein‐Based Solid Electrolytes
Citations: 6

Dr. Imran Aslam | Materials Chemistry | Best Researcher Award

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Dr. Imran Aslam | Materials Chemistry | Best Researcher Award

Dr. Imran Aslam | Materials Chemistry | Associate Professor at Department of Physics, GC Women University Sialkot , Pakistan

Dr. Imran Aslam is an Associate Professor (BPS-20) at the Department of Physics, GC Women University, Sialkot, Pakistan. With over 15 years of teaching and research experience, he has authored 60+ research articles in international peer-reviewed journals, accumulating 3250 citations, an H-index of 27, and an i10-index of 47. His research specializes in nano- heterostructured materials for energy storage, environmental applications, and density functional theory (DFT). He serves as a reviewer for prestigious journals like Scientific Reports (Nature), Journal of Crystal Growth, and Chemosphere. As an HEC-approved PhD supervisor, he has supervised 11 MS students and 4 PhD candidates. He has also been a keynote speaker at multiple international conferences. His contributions to academia have earned him accolades such as the CAS President’s International Fellowship (2016) and the Quaid-e-Azam Gold Medal Award (2020).

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Summary of Suitability for Award:

Dr. Imran Aslam, an Associate Professor at GC Women University Sialkot, is a distinguished researcher in the field of nanomaterials and energy storage. With over 15 years of research and teaching experience, he has authored/co-authored more than 60 research articles in high-impact international journals, accumulating a total impact factor of 300 and over 3,250 citations (H-index: 27, i10-index: 47). His extensive research contributions span the synthesis and characterization of micro/nano heterostructured materials, photocatalysis, supercapacitors, and density functional theory (DFT). Additionally, he serves as a reviewer for multiple reputed journals and is an HEC-approved Ph.D. supervisor. His role as an invited speaker at international conferences further highlights his expertise. Dr. Imran Aslam’s significant contributions to material science, coupled with his prolific publication record, high citation impact, and leadership in research supervision, make him an outstanding candidate for the “Best Researcher Award.” His dedication to advancing nanotechnology and sustainable energy solutions further strengthens his suitability for this prestigious recognition.

🎓Education:

Dr. Imran Aslam holds a Postdoctoral Fellowship (2017) from the National Centre for Nanoscience and Technology (NCNST), Chinese Academy of Sciences. He earned his PhD (2015) from the Beijing Institute of Technology, China, as a recipient of the CSC Scholarship (2011-2015). His M.Phil. (2010) degree is from GC University, Lahore, Pakistan, where he was awarded the M.Phil. Fellowship at Salam Chair in Physics. Prior to that, he completed his M.Sc. (2008) in Physics from the University of the Punjab, Lahore. His academic achievements also include the Distinguished Student Award (2013/2014) at Beijing Institute of Technology, China. Throughout his education, Dr. Aslam has demonstrated a strong focus on nanotechnology, energy storage, photocatalysis, and computational material science, laying the foundation for his extensive research career.

🏢Work Experience:

Dr. Imran Aslam has an extensive 15-year career in academia and research. Currently, he is an Associate Professor at GC Women University, Sialkot. He has previously served as Resident Officer (2020-2023), Convener of the Mess Committee (2021-2023), Technical Evaluation Committee (2020-2023), and Events Management Committee (2022-2023) at UET Lahore, Narowal Campus. Additionally, he was MPhil Coordinator and Exam Superintendent (2015-2016) at the University of Gujrat. His contributions extend to exam coordination, admissions, and scholarship programs at GCWUS. He is an external examiner for MS/PhD theses at multiple universities, including University of Gujrat, Riphah International University, and The University of Chenab. As a co-PI of an HEC-funded project worth 9.4 million rupees, his expertise also spans research administration. Dr. Aslam actively reviews manuscripts for top-tier journals, ensuring quality contributions to the scientific community.

🏅Awards: 

Dr. Imran Aslam has received numerous national and international accolades in recognition of his academic and research contributions. In 2020, he was awarded the Quaid-e-Azam Gold Medal by Istehkam-e-Pakistan Foundation. His international recognition includes the CAS President’s International Fellowship Initiative (PIFI) 2016 for postdoctoral studies at the Chinese Academy of Sciences. As a PhD scholar at Beijing Institute of Technology, he was honored with the Distinguished Student Award (2013/2014) and the CSC Scholarship (2011-2015). During his M.Phil. at GC University, Lahore, he secured a fellowship at Salam Chair in Physics. His consistent excellence in research and leadership in various academic roles has further solidified his reputation as a distinguished scientist in materials science, photocatalysis, and nanotechnology.

🔬Research Focus:

Dr. Imran Aslam’s research is centered on the synthesis and characterization of micro/nano heterostructured materials using cost-effective methods. His work explores optical, photoluminescence, and energy storage properties with applications in supercapacitors and lithium-ion batteries. Additionally, his expertise extends to photocurrent response, incident photo-to-current conversion efficiency (IPCE), and photocatalytic hydrogen production via water-splitting. His environmental research involves photo-degradation processes for pollutant removal. He also conducts computational studies using Density Functional Theory (DFT) to predict and optimize material properties for various energy applications. His contributions have significantly advanced material science, nanotechnology, and environmental sustainability. His findings are published in high-impact journals, and he collaborates internationally to push the frontiers of nano-engineered materials.

Publication Top Notes:

Multifunctional g-C₃N₄ Nanofibers: A Template-Free Fabrication and Enhanced Optical, Electrochemical, and Photocatalyst Properties

Citations: 412

Tubular graphitic-C₃N₄: A Prospective Material for Energy Storage and Green Photocatalysis

Citations: 275

High-Valence-State NiO/Co₃O₄ Nanoparticles on Nitrogen-Doped Carbon for Oxygen Evolution at Low Overpotential

Citations: 239

Synthesis of Novel ZnV₂O₄ Hierarchical Nanospheres and Their Applications as Electrochemical Supercapacitor and Hydrogen Storage Material

Citations: 183

Template-Free Synthesis of CuS Nanosheet-Based Hierarchical Microspheres: An Efficient Natural Light Driven Photocatalyst

Citations: 174

Green Synthesis of TiO₂ Nanoparticles Using Lemon Peel Extract: Their Optical and Photocatalytic Properties

Citations: 147

Bifunctional Catalysts of Co₃O₄@GCN Tubular Nanostructured (TNS) Hybrids for Oxygen and Hydrogen Evolution Reactions

Citations: 143

Large-Scale Production of Novel g-C₃N₄ Microstrings with High Surface Area and Versatile Photodegradation Ability

Citations: 129

A Novel Z-Scheme WO₃/CdWO₄ Photocatalyst with Enhanced Visible-Light Photocatalytic Activity for the Degradation of Organic Pollutants

Citations: 128

One-Dimensional Graphitic Carbon Nitrides as Effective Metal-Free Oxygen Reduction Catalysts

Citations: 101

The Synergistic Effect Between WO₃ and g-C₃N₄ Towards Efficient Visible-Light-Driven Photocatalytic Performance

Citations: 95

Assoc. Prof. Dr. Mohamed Ebrahim | Materials Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Mohamed Ebrahim | Materials Chemistry | Best Researcher Award

Assoc. Prof. Dr. Mohamed Ebrahim | Materials Chemistry |Solid State Physics research at National Research Center, Egypt

M. R. Ebrahim, born in Giza, Egypt, is a distinguished researcher in solid-state physics at the National Research Centre (NRC), Egypt. He obtained his Ph.D. in Experimental Physics from Mansoura University, specializing in the synthesis and preparation of Al/Ru bi-layers. His expertise lies in severe plastic deformation (SPD) and surface mechanical alloying (SMA) of aluminum. He has significantly contributed to materials science with innovations such as Surface Mechanical Attrition Treatment (SMAT), for which he holds a patent. His research has advanced aluminum composites, corrosion resistance, and electrochemical behavior, leading to applications in supercapacitors, coatings, and energy storage devices. He has authored numerous publications in high-impact journals and collaborates internationally in materials engineering. His work integrates theoretical physics with experimental applications, contributing significantly to nanomaterials, electrochemistry, and advanced materials.

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Summary of Suitability for Award:

M. R. Ebrahim is a highly accomplished researcher specializing in solid-state physics, severe plastic deformation (SPD), and surface mechanical alloying (SMA). His groundbreaking innovations, such as Surface Mechanical Attrition Treatment (SMAT), have significantly advanced materials science, particularly in supercapacitor development, corrosion resistance, and electrochemical behavior. His patents, numerous high-impact publications, and contributions to industrial and academic research demonstrate his expertise and leadership in his field. He has successfully bridged the gap between theoretical physics and applied materials engineering, leading to practical advancements in nanomaterials and surface engineering. His active involvement in research collaborations, peer reviewing, and international conferences further strengthens his candidacy for this prestigious award. M. R. Ebrahim’s research excellence, technological innovations, and impactful contributions to materials science make him a highly deserving candidate for the “Best Researcher Award.” His patents, publications, and pioneering work in surface engineering and electrochemistry showcase his ability to drive scientific progress and innovation. Recognizing his achievements would honor his dedication to advancing materials science and inspire further groundbreaking research in the field.

🎓Education:

M. R. Ebrahim pursued his academic journey in physics, starting with a B.Sc. in Physics from Helwan University, Egypt. He furthered his studies with a Ph.D. in Experimental Physics from Mansoura University, focusing on synthesis and preparation of Al/Ru bi-layers. His doctoral research emphasized surface modifications, mechanical alloying, and electrochemical properties of aluminum-based materials. His educational background laid a strong foundation for his work in severe plastic deformation (SPD), surface engineering, and supercapacitor technology. His studies encompassed various aspects of solid-state physics, nanomaterials, and electrochemical behavior. With extensive laboratory experience, he gained expertise in materials characterization, thin-film coatings, and corrosion-resistant materials. His education has driven his innovations in advanced materials processing, mechanical attrition, and novel composite development, enabling him to make significant contributions to materials science and industrial applications.

🏢Work Experience:

M. R. Ebrahim has been a Researcher in Solid-State Physics at NRC, Egypt, since 2010, working extensively on surface mechanical alloying, corrosion resistance, and severe plastic deformation of aluminum-based materials. His research focuses on enhancing the mechanical, electrical, and electrochemical properties of metals for various applications. He pioneered SMAT technology for material surface modifications, significantly improving supercapacitor performance, dielectric properties, and composite coatings. His collaborations extend internationally, engaging in projects related to nano-coatings, energy storage, and metal reinforcement techniques. He has contributed to industrial advancements by integrating electrochemical engineering with material science, leading to innovative solutions for corrosion-resistant and high-performance aluminum materials. He actively publishes, reviews scientific papers, and participates in global conferences, sharing his expertise in materials modification, nanostructured composites, and energy applications. His work bridges the gap between fundamental physics and practical material applications, driving progress in advanced alloy engineering.

🏅Awards: 

M. R. Ebrahim has received several prestigious recognitions for his outstanding contributions to solid-state physics, surface mechanical alloying, and severe plastic deformation. He has been acknowledged for his innovative patents, including the “Machine for Surface Mechanical Attrition Treatment (SMAT)” and “Supercapacitors Construction from Fiberglass through Surface Mechanical Alloying.” These innovations were recognized by the Egyptian Scientific Research Academy, highlighting their significance in advancing materials science and energy storage technologies. His research excellence has also earned him invitations to international conferences, peer-reviewing roles in high-impact journals, and collaborations with leading institutions. His contributions to corrosion resistance, electrochemical behavior, and composite materials have been widely cited, further solidifying his reputation as a leading researcher in his field. His dedication to applied physics and engineering continues to influence modern materials science, making him a strong contender for prestigious scientific awards and fellowships.

🔬Research Focus:

M. R. Ebrahim’s research is centered on solid-state physics, surface engineering, and severe plastic deformation (SPD) to enhance material properties. His work on surface mechanical alloying (SMA) and surface mechanical attrition treatment (SMAT) has led to significant advancements in corrosion resistance, mechanical strength, and electrical properties of aluminum-based materials. A key aspect of his research is the development of supercapacitors using fiberglass and aluminum composites, which has implications for energy storage and electronic applications. His studies also explore electrochemical behavior, dielectric permittivity, and microstructural evolution in materials subjected to mechanical treatments. By integrating experimental physics with material science, he has successfully introduced innovative methodologies to modify and enhance material surfaces for industrial and technological applications. His contributions are particularly impactful in nanomaterials, thin films, and composite materials, where his work continues to drive new advancements in materials engineering and applied physics.

Publication Top Notes:

  • “Electrical properties of Al-Si surface composites through surface mechanical alloying on severe plastic deformed Al substrates”

  • “Mechanical treatment of aluminum plate surfaces for improvements of capacitance and dielectric permittivity”

  • “Corrosion behavior of aluminum-Fiber Glass composite fabricated through surface mechanical alloying in alkaline media”

  • “Electrochemical behavior of Al₂O₃/Al composite coated Al electrodes through surface mechanical alloying in alkaline media”

  • “Terahertz acoustic phonon detection from a compact surface layer of spherical nanoparticles powder mixture of aluminum, alumina and multi-walled carbon nanotube”

  • “Improving corrosion resistance of Al through severe plastic deformation 1-under free condition”

  • “Improving corrosion resistance of Al through severe plastic deformation 2-under accelerated condition”

  • “Spectroscopic Analysis of Severe Plastically Deformed Raw Al Rolled Sheet”

  • “Microstructure and Microhardness Evolutions of High Fe Containing Near-Eutectic Al-Si Rapidly Solidified Alloy”

  • “Microstructure and microhardness evolution of melt-spun Al-Si-Cu alloy”

  • “Study of Phase Evolution in Sputtered Al/Ru Bi-layers Nanocrystalline Thin Films”

 

Assist. Prof. Dr. Arman Zarebidaki | Materials Chemistry | Best Researcher Award

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Assist. Prof. Dr. Arman Zarebidaki | Materials Chemistry | Best Researcher Award

Assist. Prof. Dr. Arman Zarebidaki | Materials Chemistry | Assistant professor at Amirkabir University of Technology , Iran

Dr. Arman Zarebidaki is an Assistant Professor and Head of the Corrosion Engineering and Material Protection Group at Amirkabir University of Technology (Tehran Polytechnic), Bandarabbas Campus, Iran. With a strong background in materials engineering, electrochemistry, and surface engineering, his research focuses on advanced coatings for corrosion protection, hydrogen evolution, and oxygen evolution reactions. He has extensive experience in electrochemical techniques such as polarization methods, voltammetry, and impedance spectroscopy. Dr. Zarebidaki has supervised over 25 master’s theses and has authored multiple high-impact journal articles. He holds three national patents in corrosion prevention and is recognized for his contributions to sustainable energy technologies and industrial material protection.

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Summary of Suitability for Award:

Dr. Arman Zarebidaki is a highly accomplished researcher in materials science, electrochemistry, and surface engineering, making him an exceptional candidate for the “Best Researcher Award”. His research spans crucial areas such as corrosion protection, electrocatalysis, and advanced coating technologies, which have significant industrial and environmental applications. His high-impact publications, extensive teaching experience, and contributions to innovative material protection methods demonstrate his leadership in the field. He has also secured three national patents, reflecting his ability to translate research into practical solutions. Recognized as the Top Researcher in Hormozgan Province (2023) and a Distinguished Researcher at Azad University (2015), his accolades further establish his excellence in scientific innovation. Dr. Zarebidaki’s outstanding research in corrosion-resistant coatings, electrochemical energy applications, and material durability makes him a strong contender for the “Best Researcher Award”. His work not only advances scientific knowledge but also has direct implications for industry and sustainability, positioning him among the top researchers in his field.

🎓Education:

Dr. Arman Zarebidaki holds a Ph.D. in Metallurgical & Materials Engineering from the University of Tehran (2006–2012), where he investigated the tribo-corrosion behavior of Ni-P electroless coatings with SiC nanoparticles and carbon nanotubes. His doctoral research resulted in multiple high-impact publications. Prior to that, he earned an M.S. in Metallurgical & Materials Engineering from the University of Tehran (2003–2006), focusing on optimizing and characterizing Al/Gr composites produced by in-situ powder metallurgy. His master’s research led to a Q2-ranked ISI publication. He completed his B.S. in Materials Engineering-Industrial Metallurgy at Azad University, Yazd Branch (1998–2003), where he studied surface hardening of cast iron using the TIG process. Throughout his academic journey, he maintained outstanding GPAs and received multiple accolades for his research excellence. His extensive educational background laid the foundation for his expertise in materials engineering, corrosion protection, and advanced electrochemical methods.

🏢Work Experience:

Dr. Arman Zarebidaki is an Assistant Professor at Amirkabir University of Technology, where he has been leading the Corrosion Engineering and Material Protection Group since 2023. He has been actively involved in teaching courses such as oxidation and hot corrosion, corrosion inhibitors, and advanced electrochemistry laboratory techniques. Prior to this, he served as an Assistant Professor at Azad University, Yazd Branch (2008–2014), where he taught advanced electrochemistry, cathodic & anodic protection, and corrosion science. With over 25 master’s theses supervised, he has contributed significantly to the field of corrosion and electrocatalysis . His expertise includes deposition techniques for coatings and nanocomposite materials, corrosion assessments, and electrochemical analysis. He is proficient in methods such as cyclic voltammetry, linear sweep voltammetry, and electrochemical impedance spectroscopy. His research extends to nanotube production via anodizing, corrosion inhibition using green inhibitors, and the development of protective coatings for industrial applications.

🏅Awards: 

Dr. Arman Zarebidaki has received several prestigious awards throughout his career. In 2023, he was recognized as the Top Researcher in technical and engineering fields in Hormozgan province. He was also named a Distinguished Researcher by the Deputy of Education and Technology at Islamic Azad University, Yazd Branch, in 2015. His exceptional teaching abilities earned him the Exemplary Professor Award in 2014. Additionally, his Ph.D. thesis was awarded as a Superior Dissertation at the University of Tehran in 2012. As an M.Sc. student, he ranked 1st among 50 peers in the Department of Material Science and Engineering. His contributions to the field of corrosion prevention and control are further highlighted by three national patents, including innovations in self-healing epoxy coatings, corrosion-fatigue assessment apparatus, and electroless coatings for oil and gas steel equipment, demonstrating his commitment to advancing materials engineering and corrosion protection technologies.

🔬Research Focus:

Dr. Arman Zarebidaki’s research centers on materials engineering, electrochemistry, and surface engineering, with a strong emphasis on developing advanced coatings to enhance material durability and performance. His work involves designing metallic, composite, and nanocomposite coatings for industrial applications, particularly for hydrogen evolution reaction (HER) and oxygen evolution reaction (OER), aiming to improve the efficiency of electrolysis in hydrogen and oxygen production. He specializes in electrochemical characterization techniques, including polarization methods, linear sweep voltammetry, cyclic polarization, and electrochemical impedance spectroscopy (EIS), to analyze corrosion resistance and material degradation. Additionally, he investigates electrocatalysis mechanisms and surface chemistry to develop sustainable energy solutions. His expertise extends to nanotube production through anodizing, corrosion inhibitors, and smart coatings. His contributions help address global challenges related to energy sustainability, environmental protection, and climate change, making his research pivotal in the advancement of corrosion-resistant and energy-efficient materials.

Publication Top Notes:

Influence of graphite content on the dry sliding and oil impregnated sliding wear behavior of Al 2024–graphite composites produced by in situ powder metallurgy method

Citations: 396

An investigation on effects of heat treatment on corrosion properties of Ni–P electroless nano-coatings

Citations: 166

Effect of surfactant on the fabrication and characterization of Ni-P-CNT composite coatings

Citations: 104

Characterization and corrosion behavior of electroless Ni–P/nano-SiC coating inside the CO2 containing media in the presence of acetic acid

Citations: 96

The effect of sliding speed and amount of loading on friction and wear behavior of Cu–0.65 wt.% Cr alloy

Citations: 47

Microstructure and corrosion behavior of electrodeposited nano-crystalline nickel coating on AZ91 Mg alloy

Citations: 46

Evaluation of corrosion inhibition of mild steel in 3.5 wt% NaCl solution by cerium nitrate

Citations: 43

Electrodeposition and characterization of Co–BN (h) nanocomposite coatings

Citations: 42

An experimental study on stress corrosion behavior of A131/A and A131/AH32 low carbon steels in simulated seawater

Citations: 28

Porosity measurement of electroless Ni–P coatings reinforced by CNT or SiC particles

Citations: 28

 

Dr. Kàshinath Lellala | Materials Chemistry | Best Researcher Award

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Dr. Kàshinath Lellala | Materials Chemistry | Best Researcher Award

Dr. Kàshinath Lellala , Materials Chemistry , University of Mysore , India

Dr. Kashinath Lellala is an accomplished materials scientist with expertise in advanced functional materials for energy and environmental applications. With over 12 years of research experience and 10 years of teaching, he has made significant contributions to materials fabrication, catalysis, and battery technology. His research spans heterojunction materials, electrocatalysts, and Li-ion battery components. Dr. Lellala has held postdoctoral positions at esteemed institutions such as Xavier University (USA), Luleå University of Technology (Sweden), and Pandit Deendayal Petroleum University (India). He has also served as a lecturer at Xavier University, JSS University, and Royal University of Bhutan. His interdisciplinary approach integrates computational studies with experimental research, enhancing his contributions to materials science. He actively collaborates with global researchers and has served on editorial boards of reputed journals. His work has been recognized through multiple awards, including the Eminent Educator Award and prestigious fellowships.

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Summary of Suitability for Award:

Dr. Kashinath Lellala is exceptionally qualified for “Best Researcher Awards” due to his extensive and diverse contributions to materials science and engineering. With over 12 years of research experience and 10 years of teaching, his work spans advanced functional materials, photocatalysis, and lithium-ion battery technology. His innovative approaches in synthesizing heterojunction materials, semiconductor-supported catalysts, and graphene-based nanomaterials have significantly advanced the fields of energy and environmental applications. His global research stints—at institutions such as Xavier University, Luleå University of Technology, and Pandit Deendayal Petroleum University—underscore his ability to collaborate across borders and disciplines. Additionally, his editorial board roles, numerous publications, and prestigious awards, including the Caryl Trigger Research Fellowship and Eminent Educator Award, reflect both his academic rigor and leadership.

🎓Education:

Dr. Kashinath Lellala earned his Ph.D. in Materials Science from the University of Mysore, India, in 2019, under the guidance of Prof. K. Byrappa, focusing on hybrid metal oxide/metal sulfide-graphene oxide nanocomposites for energy and environmental applications. He completed his M.Phil. in Physics (Thin Films and Nanotechnology) from Alagappa University, India, in 2013, where he synthesized and characterized single-layered graphene via chemical exfoliation. His M.Sc. in Physics, with a specialization in electronics, was awarded by Kakatiya University, Warangal, Telangana, India, in 2007. Additionally, he holds a Diploma in Embedded Technology from Kionia Software Institution, Pune University, and a Postgraduate Diploma in Computer Applications (PGDCA) from Andhra Pradesh Electronics Limited (APEL). His academic background is complemented by a Certificate in Typing (English Lower Grade), reflecting his diverse skill set in computational work and experimental physics.

🏢Work Experience:

Dr. Lellala has 12 years of research and 10 years of teaching experience across prestigious institutions worldwide. He served as a Postdoctoral Fellow & Lecturer at Xavier University of Louisiana (2022–2023), working on semiconductor and heterojunction materials for batteries, 3D bio-inkjet printing, and fuel cells. At Lulea University of Technology, Sweden (2020–2022), he contributed to water remediation research through semiconductor-supported photocatalysis. Earlier, he was a Research Associate at Pandit Deendayal Petroleum University (2019–2020), focusing on silicon nanoparticle-based anode materials for lithium-ion batteries. His Ph.D. research (2014–2019) at the University of Mysore involved fabricating hybrid metal oxide/sulfide-graphene oxide nanocomposites for energy applications. Additionally, he has held teaching positions at JSS University, Bhutan Royal University, Iringa University (Tanzania), and New Science PG College, delivering lectures on physics, materials science, and nanotechnology.

🏅Awards: 

Dr. Kashinath Lellala has received multiple prestigious awards in recognition of his contributions to materials science and engineering. He was awarded the Caryl Trigger Research Foundation Postdoctoral Fellowship at Lulea University of Technology in 2020. He also received the Eminet Educator Award-2020 from the Forum of Interdisciplinary Research in Mathematical Sciences (FIRMS), India. His research excellence was recognized with a Certificate of Appreciation for Reviewing by Elsevier’s Journal of Cleaner Production (2021). Additionally, he was a Postdoctoral Fellow at the Department of Science & Technology, India (2019), and an International Visiting Research Student at the University of South Australia (2017). His research potential was acknowledged with the Senior Research Fellowship (SRF) at the University of Mysore (2017) and Junior Research Fellowship (JRF) by the Department of Science & Technology (2014).

🔬Research Focus:

Dr. Kashinath Lellala’s research is centered on advanced functional materials for energy and environmental applications. His expertise spans photo- and electro-catalysis, heavy metal removal, and organic pollutant degradation through semiconductor-supported photocatalysts. His work on heterojunction materials includes developing fuel cell electrodes (HER, OER, ORR) and lithium-ion battery anode/cathode materials using metal oxide/metal sulfide composites. He specializes in graphene-based nanomaterials, exploring the fabrication of porous graphene sheets doped with boron and nitrogen for enhanced electrochemical performance. Additionally, he has worked extensively on silicon-based anode materials for lithium-ion batteries, including the innovative synthesis of graphene from camphor. His research extends to microwave-assisted hydrothermal processing for fabricating high-efficiency heterostructures. His contributions in water remediation, particularly through photo-electrochemical oxidation, demonstrate his commitment to sustainable and green chemistry solutions for environmental challenges.

Publication Top Notes:

Fe₃O₄ nanoparticles decorated on N-doped graphene oxide nanosheets for elimination of heavy metals from industrial wastewater and desulfurization

Ceria Boosting on In Situ Nitrogen-Doped Graphene Oxide for Efficient Bifunctional ORR/OER Activity

Citations: 7

Sol-gel mediated microwave synthesis of Fe₃O₄ nanoparticles decorated on N-doped graphene oxide nanosheets: An excellent material for removal of heavy metals, organic pollutants, and desulfurization

Ceria boosting on in-situ nitrogen-doped graphene oxide for efficient bifunctional ORR/OER activity

Electrochemical Deposition of Si Nano-spheres from Water Contaminated Ionic Liquid at Room Temperature: Structural Evolution and Growth Mechanism

One-pot microwave synthesis of SnSe and Lanthanum doped SnSe nanostructure with direct Z scheme pattern for excellent photodegradation of organic pollutants

Microwave-hydrothermal synthesis of copper sulphide nanorods embedded on graphene sheets as an efficient electrocatalyst for excellent hydrogen evolution reaction

Sulphur Embedded On In-Situ Carbon Nanodisc Decorated On Graphene Sheets For Efficient Photocatalytic Activity And Capacitive Deionization Method For Heavy Metal Removal

Microwave-Assisted Facile Hydrothermal Synthesis of Fe₃O₄–GO nanocomposites for the Efficient Bifunctional Electrocatalytic Activity of OER/ORR

Role of surface passivation on the development of camphor-based Graphene/SiNWAs Schottky diode

Dr. Maya Setan Diakité | Materials Chemistry | Best Researcher Award

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Dr. Maya Setan Diakité | Materials Chemistry | Best Researcher Award

Dr. Maya Setan Diakité ,Swedish University of Agricultural Sciences (SLU) , Sweden

Dr. Maya-Sétan Diakité is a French Ph.D. student specializing in plant chemistry, currently researching at UniLaSalle and the University of Artois in France. Her research focuses on the valorization of plant agricultural waste, specifically hemp shiv, for sustainable building materials. Maya has also worked as a postdoctoral researcher at the Swedish Agricultural University, specializing in super-absorbent biomaterials derived from plant waste. Passionate about agro-resources and lignocellulosic biomass, she has been actively involved in scientific outreach and teaching. Dr. Maya-Sétan Diakité is fluent in French, with working proficiency in English, Spanish, and Swedish. Outside of academics, she enjoys music, movies, and taekwondo.

Professional Profile:

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Summary of Suitability for Award:

Dr. Maya-Sétan Diakité appears to be a strong candidate for the “Best Researcher Awards.” She has demonstrated exceptional research capabilities, particularly in plant chemistry and biomass valorization. Dr. Maya-Sétan is currently a Ph.D. student specializing in the transformation processes of plant materials, with a focus on hemp shiv for building applications. Her academic background, including a Master’s in Biotechnology and extensive postdoctoral research, has equipped her with solid technical expertise in agro-resources, lignocellulosic biomass, and molecular biology. Dr. Maya-Sétan Diakité’s combination of strong academic credentials, impactful research, leadership in scientific outreach, and dedication to sustainable innovation underscores her suitability for the “Best Researcher Awards.” Her work is not only scientifically rigorous but also addresses critical issues in environmental sustainability and resource management, making her a deserving contender for this prestigious recognition.

🎓Education:

Dr. Maya-Sétan Diakité holds a Ph.D. in plant chemistry, pursued at UniLaSalle (Mont-Saint-Aignan, Normandie) and the University of Artois (Béthune, Pas-de-Calais), under the guidance of Dr. Nathalie LeBlanc and Dr. Patrick Martin. She completed her postdoctoral research at the Swedish Agricultural University (SLU), focusing on the valorization of plant agricultural waste into super-absorbent biomaterials. Dr. Dr. Maya also holds a Master 2 in Biotechnology from the University Technologic of Compiègne and a Master 1 in Transformation and Valorization of Natural Resources from the University of Picardie Jules Verne. Her undergraduate studies in Chemistry and Biology were completed at the same institution, where she also studied a year of medicine.

🏢Work Experience:

Dr. Maya-Sétan Diakité has gained extensive research experience in plant chemistry and bioprocessing. As a Ph.D. student, she investigates the influence of transformation process parameters like temperature and pH on plant material, specifically hemp shiv, and its application in sustainable building materials. Her postdoctoral work at the Swedish Agricultural University focuses on the valorization of plant agricultural waste for producing super-absorbent biomaterials. She has developed proficiency in agro-resources, lignocellulosic biomass, and plant biology, working with a variety of techniques such as chromatography, NMR, and mass spectrometry. Additionally, Maya has mentored students and participated in multiple scientific outreach initiatives, including workshops, conferences, and PhD days. Her project management skills are demonstrated through collaborations with institutions like Normandie Aerospace. She has also gained experience in teaching, research communication, and cross-border collaborations.

🏅Awards: 

Dr. Maya-Sétan Diakité has earned recognition for her exceptional academic contributions. Notably, she received the 2nd prize at the Doctoriales Vallée de Seine for her collaborative work with Normandie Aerospace in 2021. She has also been awarded for her outstanding research and innovation in plant chemistry, particularly in the valorization of agricultural waste for sustainable applications. Her involvement in scientific outreach, including her participation in the Normandie final of MT180s 2021, underscores her commitment to promoting research and engaging with a broader audience. Dr. Maya’s work has been honored in numerous conferences, and she has actively contributed to the success of various research projects. Her achievements have solidified her reputation as a promising researcher in the field of plant-based materials and bioeconomy.

🔬Research Focus:

Dr. Maya-Sétan Diakité’s research focuses on the valorization of agro-resources, particularly the conversion of plant agricultural waste into sustainable and functional materials. Her Ph.D. research investigates the transformation processes, such as temperature and pH, that influence hemp shiv, a byproduct of hemp, and its applications in the creation of biobased building materials. She aims to enhance understanding of molecular interactions during processing, which could lead to more sustainable construction methods. As a postdoctoral researcher, Maya explores super-absorbent biomaterials made from plant protein fractionation, contributing to the development of bio-based alternatives to synthetic materials. Her expertise in cell wall composition, plant biology, and experimental design positions her as a key contributor to advancing the bioeconomy, with a particular focus on sustainable materials in construction and other applications.

Publication Top Notes:

  • Cell wall composition of hemp shiv determined by physical and chemical approaches
  • Influence des paramètres de procédés de transformation subis par la matière végétale: focus sur les fonctionnalités apportées par la température et le pH
  • Processing Hemp Shiv Particles for Building Applications: Alkaline Extraction for Concrete and Hot Water Treatment for Binderless Particle Board
  • Extraction des chènevotte de chanvre par simulation des paramètres de formulation-Une application dans le domaine de l’ingénierie du bâtiment
  • Valorisation of hemp in bio-sourced construction materials for sustainable buildings

 

 

 

 

 

Ica Manas-Zloczower | Chemistry | Best Researcher Award

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Prof. Ica Manas-Zloczower | Chemistry| Best Researcher Award

Professor at Case Western Reserve University, United States

Ica Manas-Zloczower is a distinguished university professor at Case Western Reserve University, specializing in macromolecular science and chemical engineering. With a career spanning over four decades, she has made significant contributions to the fields of polymer processing, advanced materials, and energy solutions. Her extensive research and leadership roles have positioned her as a prominent figure in both academia and professional societies.

Author Metrics

Google Scholar Profile

Scopus Profile

ORCID Profile

Throughout her career, Ica Manas-Zloczower has published numerous research articles in high-impact journals, contributing significantly to the scientific community. Her work is widely cited, reflecting her influence and expertise in polymer science. Metrics such as citation indices and h-index highlight her prolific output and the impact of her research on advancing knowledge in her field.

  • Total Citations: 5,873
  • Total Documents: 236
  • h-index: 43

Education

Ica earned her Doctor of Science from the Technion – Israel Institute of Technology, where she focused on chemical engineering. Her academic journey began at the Polytechnic Institute in Jassy, Romania, where she received both her B.S. and M.S. degrees. This solid educational foundation has underpinned her subsequent achievements in research and teaching.

Research Focus

Her research primarily centers on polymer processing, recycling technologies, and the development of advanced materials. Ica is particularly interested in mechanochemical methods for the recycling of thermosetting polymers and the enhancement of thermomechanical properties of polymer composites. This focus not only addresses critical environmental issues but also pushes the boundaries of material science.

Professional Journey

Ica’s professional journey includes roles as an assistant professor, associate professor, and now as a distinguished university professor at Case Western Reserve University. She has served as the Associate Dean of Faculty Development and has held leadership positions in several professional organizations, including the International Polymer Processing Society. Her academic and administrative roles demonstrate her commitment to fostering growth in engineering education.

Honors & Awards

Ica has received numerous accolades for her teaching, research, and service. Notable honors include the 2017 Society of Plastics Engineers Fred E. Schwab Education Award and the 2012 George S. Whitby Award for Distinguished Teaching and Research. Her recognition as a Fellow of the Society of Plastics Engineers underscores her contributions to the field.

Publications Noted & Contributions

Ica has authored and co-authored a plethora of articles in leading journals, contributing vital research on topics like polymer recycling and mechanical properties of materials. Her editorial roles in several journals further amplify her impact, as she shapes the discourse in polymer science and engineering. Notable publications include works on vitrimerization and thermomechanical properties of polymers, reflecting her innovative research approach.

Improving Performance of TPU by Controlled Crosslinking of Soft Segments

Journal: Polymer Engineering & Science
Publication Date: August 2024
DOI: 10.1002/pen.26826
Contributors: Lucivan P. Barros Junior, Lucio R. de Souza, Rasoul Rahimzadeh, Ica Manas‐Zloczower
This article explores innovative methods to enhance the performance of thermoplastic polyurethane (TPU) by controlling the crosslinking of its soft segments. The findings contribute to optimizing TPU properties for various applications, particularly in areas requiring enhanced mechanical performance and durability.

A Mechanochemical Approach to Recycle Thermosets Containing Carbonate and Thiourethane Linkages

Journal: Polymer
Publication Date: April 2024
DOI: 10.1016/j.polymer.2024.126877
Contributors: Rasoul Rahimzadeh, Yazhe Han, Ica Manas-Zloczower
This research presents a mechanochemical method for recycling thermosetting polymers with carbonate and thiourethane linkages. The study addresses the critical issue of polymer waste, proposing a viable recycling technique that could significantly impact sustainability in polymer usage.

Thermomechanical Performance of Thermoplastic Polyurethane–Poly(tetrafluoroethylene) Fibril Nanocomposites

Journal: ACS Applied Polymer Materials
Publication Date: July 14, 2023
DOI: 10.1021/acsapm.3c00738
Contributors: Maya Pishvar, Mehrad Amirkhosravi, Ica Manas-Zloczower
This article investigates the thermomechanical properties of nanocomposites made from TPU and poly(tetrafluoroethylene) (PTFE) fibrils. The research contributes to the understanding of composite behavior, highlighting the potential for developing advanced materials with superior mechanical properties.

Porous Hydrogels: Present Challenges and Future Opportunities

Journal: Langmuir
Publication Date: February 14, 2023
DOI: 10.1021/acs.langmuir.2c02253
Contributors: Reza Foudazi, Ryan Zowada, Ica Manas-Zloczower, Donald L. Feke
This publication reviews the current challenges in developing porous hydrogels while identifying future research directions. It serves as a comprehensive resource for researchers in the field, fostering innovation in hydrogel applications.

Thermomechanical Properties of Cross-Linked EVA: A Holistic Approach

Journal: ACS Applied Polymer Materials
Publication Date: February 10, 2023
DOI: 10.1021/acsapm.2c01928
Contributors: Kimberly Miller McLoughlin, Amin Jamei Oskouei, Michelle K. Sing, Alireza Bandegi, Sarah Mitchell, Jayme Kennedy, Thomas G. Gray, Ica Manas-Zloczower
This article presents a comprehensive analysis of the thermomechanical properties of cross-linked ethylene-vinyl acetate (EVA). By utilizing a holistic approach, the study enhances understanding of the relationship between processing conditions and material performance.

Research Timeline

Over the years, Ica’s research has evolved, with early work focusing on basic polymer processing principles and later expanding into advanced recycling technologies and material characterization. This timeline illustrates her adaptability and foresight in addressing emerging challenges in materials science, making significant contributions to both academia and industry.

Conclusion

Ica Manas-Zloczower’s career is marked by a dedication to research, teaching, and professional service in the field of macromolecular science and engineering. Her contributions not only advance scientific understanding but also inspire future generations of engineers. As she continues to push the boundaries of polymer science, her legacy will undoubtedly influence the direction of research and education in the field.

Khalid Khan | Organic Chemistry | Best Researcher Award

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Assoc Prof Dr. Khalid Khan | Organic Chemistry | Best Researcher Award

Associate Professor at Islamia College University, Peshawar, Pakistan

Dr. Khalid Khan is an accomplished chemist with extensive expertise in organic chemistry and medicinal research. He obtained his PhD from Huazhong University of Science and Technology in China, focusing on the design and synthesis of novel dendro-calix[4]arenes. Currently, he serves as an Associate Professor at Islamia College University in Peshawar, Pakistan, where he leads various research projects and supervises graduate and undergraduate students. His work has significantly contributed to the field of drug discovery, particularly in computational and medicinal chemistry.

Author Metrics

Scopus Profile

Dr. Khan has published over 25 research articles in reputable journals, showcasing his research impact and contribution to the field of chemistry. His work has garnered numerous citations, reflecting the relevance and influence of his research on both national and international platforms. His publication metrics highlight his active engagement in advancing scientific knowledge, particularly in the areas of antiviral drug development and nanotechnology.

  • Citations: 414 citations across 379 documents
  • Documents: 21 published works
  • h-index: 9

Education

Dr. Khan completed his PhD in Chemistry from Huazhong University of Science and Technology, China (2008-2013), where he conducted groundbreaking research on nonionic amphiphilic dendro-calix[4]arenes. He holds a Master’s degree in Chemistry from the University of Peshawar (2002-2004), where he graduated with first-class honors, and a Bachelor’s degree in Biological Science from Government College Peshawar (2000-2002).

Research Focus

Dr. Khan’s research primarily revolves around organic chemistry, with a special focus on the synthesis and characterization of bioactive compounds. He is particularly interested in the development of antiviral agents and the computational modeling of drug interactions with viral proteins. His innovative research projects often explore the structure-activity relationships of compounds to enhance therapeutic efficacy.

Professional Journey

Beginning his career as a lecturer in 2005, Dr. Khan progressively advanced to the role of Associate Professor in 2020 at Islamia College University. Throughout his tenure, he has significantly contributed to the academic environment by designing curricula, supervising research, and engaging in community service. His professional journey is marked by a commitment to education, research, and the development of future scientists.

Honors & Awards

Dr. Khan has received several prestigious awards, including the Pakistan and Chinese Government Cultural Exchange Scholarship for his doctoral studies. He was recognized as the topper in his Master’s program, reflecting his dedication and excellence in the field of chemistry. His achievements have earned him a respected place among his peers in academia.

Publications Noted & Contributions

Among his numerous publications, key works include research on the design and synthesis of novel dendro-calix[4]arenes, antiviral drug development, and the characterization of compounds with potential therapeutic applications. His contributions have advanced understanding in various areas of organic chemistry and nanotechnology, facilitating further research in these domains.

Homology modeling and molecular docking study of metabotropic glutamate receptor 5 variant F: An attempt to develop drugs for treating CNS diseases

  • Authors: Ahmad, N., Khan, K., Rashid, H.U., Ullah, R., Ali, E.A.
  • Journal: Zeitschrift für Physikalische Chemie
  • Year: 2024
  • Volume: 238, Issue 8, Pages 1551–1577
  • Citations: 1

Direct synthesis, characterization, in vitro and in silico studies of simple chalcones as potential antimicrobial and antileishmanial agents

  • Authors: Ur Rashid, H., Khan, S., Irum, Shah, T., Khan, K.
  • Journal: Royal Society Open Science
  • Year: 2024
  • Volume: 11, Article 240410
  • Citations: 0

Homology modeling and molecular docking study of corticotrophin-releasing hormone: An approach to treat stress-related diseases

  • Authors: Ahmad, N., Khan, K., Khan, S.W., Ullah, R., Ali, E.A.
  • Journal: Open Chemistry
  • Year: 2024
  • Volume: 22, Article 20240069
  • Citations: 0

Biological investigations of Aspergillus ficuum via in vivo, in vitro and in silico analyses

  • Authors: Shah, Z.A., Khan, K., Shah, T., Muhammad, A., Rashid, H.
  • Journal: Scientific Reports
  • Year: 2023
  • Volume: 13, Article 17260
  • Citations: 1

Insights into metabolic and pharmacological profiling of Aspergillus ficuum through bioinformatics and experimental techniques

  • Authors: Shah, Z.A., Khan, K., Rashid, H.U., Jaremko, M., Iqbal, Z.
  • Journal: BMC Microbiology
  • Year: 2022
  • Volume: 22, Article 295
  • Citations: 4

Research Timeline

Dr. Khan’s research trajectory spans over a decade, beginning with his PhD studies from 2008 to 2013, followed by various research projects involving computational analyses and synthesis of organic compounds. His ongoing projects encompass a wide range of studies aimed at understanding and inhibiting viral proteins, particularly related to SARS-CoV-2 and other pathogenic viruses.

Collaborations and Projects

Dr. Khan has collaborated with both national and international researchers on diverse projects, enhancing the scope and impact of his research. These collaborations have resulted in joint publications and a collective effort to address significant challenges in medicinal chemistry and virology. His ability to work across disciplines and institutions underscores his commitment to collaborative scientific inquiry.

Conclusion

Dr. Khalid Khan’s recognition as a Best Researcher reflects his significant contributions to organic chemistry and medicinal research. His publication record and collaborative efforts enhance his impact within the scientific community. By addressing areas for improvement, such as increasing citation metrics and expanding research diversification, Dr. Khan can further strengthen his position as a leader in his field. His commitment to education and research not only benefits his students but also contributes to the broader scientific landscape, making his work essential for advancements in drug discovery and public health.