Assist. Prof. Dr. Cahofeng Huang | Catalysis | Best Researcher Award

Published on by Chemistry Awards

Assist. Prof. Dr. Cahofeng Huang | Catalysis | Best Researcher Award

Assist. Prof. Dr. Cahofeng Huang, Catalysis , Associate Professor at shihezi university, China

Dr. Chaofeng Huang is a dedicated Chinese researcher specializing in materials chemistry, electrochemiluminescence, and electrocatalysis. He currently holds an invited position at Shihezi University since 2019 and has contributed extensively to the development of novel sensing materials and photoelectrochemical systems. Dr. Huang began his academic journey at Shihezi University, later earning his advanced degrees from Southeast University in Nanjing. Over the years, he has become known for innovative strategies in pH sensing, oxygen evolution reaction (OER), and near-infrared biosensing using D-π-A structures. His research integrates nanotechnology with electrochemical principles to enable breakthroughs in catalysis and biosensor platforms. With over 14 scientific publications, including in high-impact journals such as Analytical Chemistry and Chemical Engineering Journal, he has gained a reputable standing in the scientific community. His preprints on ChemRxiv further illustrate his ongoing contributions to electrochemical research and energy conversion materials.

Professional Profile :         

Orcid

Summary of Suitability for Award:

Dr. Chaofeng Huang demonstrates strong credentials that make him a suitable candidate for the Best Researcher Award. With over a decade of academic and research experience, he has shown consistent contributions to the field of materials chemistry, electro chemiluminescence, electrocatalysis, and biosensing technologies. He has authored 14 research publications, including articles in high-impact journals such as Analytical Chemistry and Chemical Engineering Journal, and cutting-edge preprints on ChemRxiv.  Dr. Chaofeng Huang is highly suitable for nomination for the “Best Researcher Award”. His scientific productivity, impactful publications, innovative methodologies, and commitment to research excellence underscore his leadership in the field of chemistry and materials science. His work bridges theory with practical applications, making valuable contributions to both academic knowledge and technological advancement. Based on the quality and relevance of his research, his publication record, and institutional engagements, Dr. Huang deserves serious consideration for the award.

🎓Education:

Dr. Chaofeng Huang earned his Ph.D. in Chemistry from Southeast University, Nanjing, Jiangsu, China, between September 2015 and March 2019. His doctoral studies focused on materials science, nanotechnology, and electrochemical systems with applications in biosensing and catalysis. Prior to this, he completed his Master’s degree at Shihezi University, Xinjiang, from September 2012 to June 2015, where he laid the foundation for his future research interests in applied electrochemistry. This followed his undergraduate education, also at Shihezi University. Through both academic tracks, he demonstrated strong analytical skills and a keen interest in interdisciplinary science. These formative years shaped his expertise in electrochemiluminescent sensing, photoelectrochemical systems, and nanomaterials, ultimately positioning him for a successful research career. His education from two prestigious Chinese institutions provided him with not only deep theoretical knowledge but also hands-on experience with advanced instrumentation and chemical engineering approaches.

🏢Work Experience:

Dr. Huang began his professional career at Shihezi University in 2008, serving until 2015 in various academic roles. During this period, he engaged in both teaching and research activities in the Chemistry and Chemical Engineering domains. In 2015, he transitioned to Southeast University in Nanjing, where he continued his employment until 2019. At Southeast University, Dr. Huang contributed to research on electrocatalysis and advanced sensor development, gaining valuable experience in interdisciplinary collaboration and laboratory innovation. Since September 2019, he has held an invited academic position at Shihezi University, where he remains actively involved in research and mentoring graduate students. His professional trajectory reflects a strong commitment to advancing electrochemical science and fostering academic growth. With extensive experience in academic research, Dr. Huang has developed a niche in electrocatalytic materials and continues to influence the field through scholarly contributions and collaboration on national scientific initiatives.

🏅Awards: 

While specific awards and honors are not explicitly listed in public databases, Dr. Chaofeng Huang’s academic achievements reflect recognition through continued institutional appointments and publication in prestigious journals. His invitation to return to Shihezi University as a faculty member in 2019 signifies peer acknowledgment of his scientific credibility. Being a corresponding author of multiple high-impact journal articles and preprints on platforms like ChemRxiv, Analytical Chemistry, and Chinese Chemical Letters is itself a testament to his research excellence. His work has contributed to advancing electrochemical detection and catalysis, which are key research priorities in China’s scientific development agenda. Furthermore, his early academic trajectory from undergraduate to invited faculty roles at major Chinese institutions suggests a consistent record of merit-based appointments. Future honors are likely as his research continues to impact materials science and chemical engineering disciplines globally.

🔬Research Focus:

Dr. Chaofeng Huang’s research focuses on electrochemical sensing, electrocatalysis, and nanomaterials engineering. A significant portion of his work investigates the behavior of local pH gradients and charge transfer processes during the oxygen evolution reaction (OER), using electrochemiluminescent (ECL) and photoelectrochemical (PEC) techniques. He designs and utilizes carbon nitride-based heterojunctions and D-π-A structures to enhance biosensing performance, especially in near-infrared conditions. His studies also include surface modifications of catalytic materials, such as Cu single-atom sites, to boost reaction efficiency in industrial chemical processes like acetylene hydrochlorination. Dr. Huang often combines non-covalent molecular interactions and advanced nanofabrication strategies to build platforms capable of real-time, selective detection of protons and reactive species. His interdisciplinary approach bridges chemistry, material science, and electrical engineering to provide solutions for sustainable energy, catalysis, and medical diagnostics. Through collaborative and innovative research, he continues to contribute to the evolving landscape of functional materials and sensor development.

Publication Top Notes:

1. Measurements of Local pH Gradients for Electrocatalysts in Oxygen Evolution Reaction by Electrochemiluminescence

2. Enhanced Near-Infrared Photogenerated Carrier Transfer via Doublet-State Excitation in D-π-A Structures for Biosensing

3. Non-Covalent Coupling of Carbon Nitrides and Dyes for Selective and Sensitive Electrochemiluminescent Detection of Local H+ in Oxygen Evolution Reaction

4. Promotion Effect of Epoxy Group Neighboring Single-Atom Cu Site on Acetylene Hydrochlorination

5. Carbon Nitride-Based Heterojunction Photoelectrodes with Modulable Charge-Transfer Pathways toward Selective Biosensing

6. Protonation-Induced Site and Field Reconstruction for Ultrafast Adsorptive Desulfurization over Cu–N–C

7. Manipulating Micro-Electric Field and Coordination-Saturated Site Configuration Boosted Activity and Safety of Frustrated Single-Atom Cu/O Lewis Pair for Acetylene Hydrochlorination

8. Synergistic Desulfurization over Graphitic N and Enzyme-Like Fe–N Sites of Fe–N–C

9. Unraveling Fundamental Active Units in Carbon Nitride for Photocatalytic Oxidation Reactions

10. Preparation of Carbon Nitride Nanoparticles by Nanoprecipitation Method with High Yield and Enhanced Photocatalytic Activity

 

Assoc. Prof. Dr. Akeem Arinkoola | Chemical Engineering | Best Researcher Award

Published on by Chemistry Awards

Assoc. Prof. Dr. Akeem Arinkoola | Chemical Engineering | Best Researcher Award

Assoc. Prof. Dr. Akeem Arinkoola , Chemical Engineering ,Ladoke Akintola University of Technology, Ogbomoso, Nigeria

Dr. Akeem Olatunde Arinkoola is an accomplished Associate Professor in the Department of Chemical Engineering at Ladoke Akintola University of Technology (LAUTECH), Ogbomoso, Nigeria. With a career spanning both academia and industry, he has significantly contributed to the fields of petroleum and chemical engineering. His expertise covers product development, gas engineering, petroleum production, and uncertainty management. Dr. Arinkoola has successfully led and collaborated on several national and international research projects, including those funded by TETFUND and The Clay Minerals Society, USA. His innovations, such as the patented method for improving rheological properties of Nigerian bentonite clay, have been pivotal in enhancing oil and gas production technologies. He actively consults for major oil and gas companies in Nigeria and has contributed to the optimization of key oil fields. With over 90 publications, a patent, and a book chapter to his credit, he remains a driving force in applied petroleum research and development.

Professional Profile :         

Google Scholar

Orcid

Scopus 

Summary of Suitability for Award:

Dr. Akeem Olatunde Arinkoola exhibits a rare combination of academic rigor, innovative research, industrial application, and scientific impact, making him an exceptionally deserving candidate for the “Best Researcher Award”. His work addresses critical global challenges in energy, environment, and sustainable petroleum technologies. He not only meets but exceeds the benchmarks typically associated with award-winning research excellence.

🎓Education:

Dr. Arinkoola holds a Bachelor’s degree in Chemical Engineering and advanced degrees (M.Sc. and Ph.D.) in Petroleum Engineering. His educational journey reflects a strong foundation in core engineering principles and specialized training in oil and gas technologies. Through his postgraduate studies, he explored critical areas like drilling fluid formulation, reservoir modeling, and uncertainty analysis—fields that would later define his academic and consulting career. His Ph.D. work focused on the integration of locally available materials into drilling and production processes, an effort that led to his patented method in bentonite enhancement. His academic training was rooted in the Nigerian university system, and he has since continued to apply this foundation to address local and global challenges in petroleum engineering. His educational background has equipped him with not only technical depth but also interdisciplinary insight into environmental and operational challenges in energy resource management.

🏢Work Experience:

Dr. Arinkoola is an Associate Professor with vast academic and industry experience. At LAUTECH, he teaches and supervises research in petroleum engineering and chemical process development. His experience spans key areas including drilling fluid design, corrosion inhibition, and enhanced oil recovery. In industry, he has served as a consultant to major oil companies such as Total E&P Nigeria Ltd, ADDAX Nigeria Ltd, and Halliburton, providing field-level solutions like reservoir analysis, uncertainty management, and production optimization. Notably, he reduced the history matching time for the Akpo field reservoir and enhanced performance at Abana Field. His consultancy experience also includes the deployment of reservoir modeling templates used in training oil workers. As a project leader and collaborator, he has managed several grant-supported research efforts focused on Nigeria’s unique resource challenges. His dual engagement in academia and the energy industry reflects a balanced, impactful career committed to innovation and capacity building.

🏅Awards: 

Dr. Akeem Arinkoola has received several accolades and recognitions for his impactful contributions to petroleum and chemical engineering. Notably, he was a recipient of the prestigious TETFUND National Research Fund (NRF) for his work on bitumen polymeric modification using nano-additives. His collaborative project with The Clay Minerals Society (CMS), USA, was twice awarded a student research grant in 2016 and 2017—recognizing innovation in drilling fluid development. His patented method to enhance Nigerian bentonite clay reflects his commitment to local content and has been celebrated as a major milestone in Nigerian petroleum research. In industry circles, his consultancy roles have earned him accolades from partner companies for field performance improvements. Furthermore, his contribution as a book chapter author in an Elsevier publication underscores his international recognition. Dr. Arinkoola is also a registered engineer (COREN) and an active member of several prestigious professional organizations including NSE, SPE, and NSChE.

🔬Research Focus:

Dr. Arinkoola’s research is centered on petroleum production optimization, green chemical development, product innovation, and reservoir modeling under uncertainty. He specializes in the design of environmentally friendly drilling fluids, corrosion inhibitors, and enhanced recovery systems using indigenous materials. His pioneering work on improving rheological properties of potassium-based bentonite clay has resulted in a patented method with wide application in the oil industry. Current research efforts include the polymeric modification of bitumen using nano-additives for road durability and heavy oil producibility evaluation in the Niger Delta. He also leads work on chemical additives and polymer synthesis for improved drilling and reservoir performance. His integration of stochastic modeling frameworks has set a new standard for reservoir characterization and uncertainty analysis. Dr. Arinkoola’s research remains committed to solving real-world challenges in oil and gas operations while enhancing local content and sustainability in engineering solutions.

Publication Top Notes:

Title: Green corrosion inhibition and adsorption characteristics of Luffa cylindrica leaf extract on mild steel in hydrochloric acid environment

Citations: 197

Title: Thin layer drying of green microalgae (Chlorella sp.) paste biomass: Drying characteristics, energy requirement and mathematical modeling

Citations: 71

Title: Improving the demulsification process of heavy crude oil emulsion through blending with diluent

Citations: 62

Title: Optimization of operating parameters using response surface methodology for paraffin-wax deposition in pipeline

Citations: 42

Title: Optimization of media components and fermentation conditions for citric acid production from sweet potato peel starch hydrolysate by Aspergillus niger

Citations: 34

Title: Prediction of compressive strength of oil field class G cement slurry using factorial design

Citations: 30

Title: Improved phenol sequestration from aqueous solution using silver nanoparticle modified Palm Kernel Shell Activated Carbon

Citations: 29

Title: Gravimetric and quantitative surface morphological studies of Mangifera indica peel extract as a corrosion inhibitor for mild steel in 1 M HCl solution

Citations: 28

Title: Clay characterization and optimisation of bleaching parameters for palm kernel oil using alkaline activated clays

Citations: 28

Title: Evaluation of thickening time of oil field class G cement slurry at high temperature and pressure using experimental design

Citations: 24

Dr. Qingtao Sun | Biochemistry | Best Researcher Award

Published on by Chemistry Awards

Dr. Qingtao Sun | Biochemistry | Best Researcher Award

Dr. Qingtao Sun , Biochemistry , Postdoc at Cold Spring Harbor Laboratory, United States

Dr. Qingtao Sun is a Postdoctoral Research Associate at Cold Spring Harbor Laboratory (CSHL), working under the mentorship of Prof. Bo Li. With a strong foundation in neuroscience and biomedical photonics, Dr. Sun is recognized for his contributions to brain-wide mapping, neural circuitry, and neuroimmune interactions. Originally from Weihui, Henan, China, he earned his B.S. in Biological Sciences and Ph.D. in Biomedical Photonics from Huazhong University of Science and Technology (HUST). His Ph.D. research dissected long-range inputs to GABAergic neurons in the mouse prefrontal cortex. Prior to joining CSHL, he served as an Assistant Investigator at the HUST-Suzhou Institute for Brainsmatics. Dr. Sun’s prolific research output includes impactful publications in Nature Neuroscience, Nature Communications, and Neuron. His work bridges advanced imaging with neurobiology to uncover mechanisms of behavior, motivation, and disease. He has been honored with prestigious awards including the CSHL Postdoc Scientific Breakthrough Award.

Professional Profile :         

Orcid

Scopus 

Summary of Suitability for Award:

Dr. Qingtao Sun, currently a postdoctoral research associate at Cold Spring Harbor Laboratory (CSHL), has established himself as an outstanding young neuroscientist with a robust academic foundation and impactful research trajectory. With a Ph.D. in Biomedical Photonics from Huazhong University of Science and Technology, his work has consistently bridged advanced imaging techniques with complex neurobiological questions, particularly focusing on GABAergic neurons, neural circuitry, Alzheimer’s disease, and cancer cachexiaDr. Qingtao Sun is highly suitable for the “Best Researcher Award.” His interdisciplinary expertise, innovation in neuroimaging and neurocircuitry, publication record, and recognized scientific impact place him among the top-tier emerging neuroscientists. He represents the ideal candidate who merges cutting-edge methods with real-world biomedical relevance, making transformative contributions to brain science.

🎓Education:

Dr. Qingtao Sun began his academic journey at Huazhong University of Science and Technology (HUST), where he earned his Bachelor of Science in Biological Sciences (2009–2013) from the School of Life Science and Technology. He pursued his doctoral degree in Biomedical Photonics (2013–2019) at the Wuhan National Laboratory for Optoelectronics, HUST. His Ph.D. thesis, titled “Dissection of long-range inputs to three types of GABAergic neurons in mouse medial prefrontal cortex,” was supervised by Prof. Hui Gong. Throughout his education, Dr. Sun was actively engaged in neuroimaging, circuit dissection, and computational neuroscience. His training included in-depth exposure to advanced microscopy, whole-brain imaging techniques, and connectomics, which laid the foundation for his later work in brain function and neurocircuitry. He has seamlessly integrated interdisciplinary approaches, combining biology, optics, and computation in neuroscience research, making him an exceptional contributor in the field of systems neuroscience and brain mapping.

🏢Work Experience:

Dr. Qingtao Sun is currently a Postdoctoral Research Associate at Cold Spring Harbor Laboratory (CSHL), where he joined in February 2021. At CSHL, he works under the guidance of Prof. Bo Li, focusing on motivation, social behavior, and neuroimmune interactions using cutting-edge circuit-level neuroscience approaches. Prior to this role, Dr. Sun was an Assistant Investigator at the HUST-Suzhou Institute for Brainsmatics from June 2020 to February 2021. There, he contributed to high-resolution whole-brain imaging and analysis of neuronal circuits. His expertise spans in vivo and ex vivo imaging, large-scale brain mapping, neural tracing, and functional manipulation using optogenetics and chemogenetics. Dr. Sun has collaborated with leading neuroscientists globally and has co-authored numerous high-impact publications. His career trajectory reflects a deep commitment to exploring neural mechanisms underlying behavior and disease through interdisciplinary methodologies in neuroscience.

🏅Awards: 

Dr. Qingtao Sun has been consistently recognized for his excellence in both academic and scientific research endeavors. During his doctoral studies at Huazhong University of Science and Technology, he received the National Scholarship in 2014 for outstanding academic performance. He was honored multiple times as an Outstanding Graduate Student Cadre in 2014, 2016, and 2017 for his leadership and contributions to student initiatives. In 2020, he earned the Outstanding Dissertation Award in Biomedical Engineering for his impactful doctoral work on GABAergic neurons and brain circuitry. Most recently, he received the Cold Spring Harbor Laboratory Postdoc Scientific Breakthrough Award in 2025, a prestigious acknowledgment of his contributions to neuroscience at the postdoctoral level. These awards underscore Dr. Sun’s dedication to advancing scientific understanding and his innovative approach to neuroscience research. His accolades reflect both his academic rigor and his pioneering research in brain science.

🔬Research Focus:

Dr. Qingtao Sun’s research lies at the intersection of systems neuroscience, circuit mapping, and disease modeling. His primary focus is on understanding how specific brain circuits govern behaviors such as motivation, social interaction, and appetite regulation. He specializes in dissecting long-range neuronal inputs to GABAergic interneurons, with a particular emphasis on the medial prefrontal cortex. At Cold Spring Harbor Laboratory, he explores neuromodulatory mechanisms through the pallido-amygdala cholinergic circuit and the role of area postrema neurons in cancer cachexia. His work integrates advanced imaging techniques, including light-sheet microscopy and dual-color tomography, with molecular tools like optogenetics and viral tracing. He also investigates neuronal disruptions in neurodegenerative conditions such as Alzheimer’s disease. Through his interdisciplinary approach combining optics, connectomics, and behavior, Dr. Sun is unraveling complex neuronal networks at synaptic and systems levels. His research advances both fundamental neuroscience and its translational potential for psychiatric and neurodegenerative disorders.

Publication Top Notes:

Cell-type-specific striatal modulation of amygdalar acetylcholine in salience assignment

Dynorphin modulates motivation through a pallido-amygdala cholinergic circuit

Unlocking opioid neuropeptide dynamics with genetically encoded biosensors

Area postrema neurons mediate interleukin-6 function in cancer cachexia

Long-range Connectome of Pyramidal Neurons in the Sensorimotor Cortex

The Mesoscopic Connectome of the Cholinergic Pontomesencephalic Tegmentum

Acetylcholine deficiency disrupts extratelencephalic projection neurons in the prefrontal cortex in a mouse model of Alzheimer’s disease

Dissection of the long-range projections of specific neurons at the synaptic level in the whole mouse brain

Multicolor high-resolution whole-brain imaging for acquiring and comparing the brain-wide distributions of type-specific and projection-specific neurons with anatomical annotation in the same brain

 

Prof. Zhilong Cao | Green Chemistry | Best Researcher Award

Published on by Chemistry Awards

Prof. Zhilong Cao | Green Chemistry | Best Researcher Award

Prof. Zhilong Cao , Green Chemistry , Deputy Director at Beijing University of Technology, China

Dr. Zhilong Cao is a Professor and Ph.D. Supervisor at Beijing University of Technology, specializing in advanced materials and technologies for sustainable asphalt pavements. With a Ph.D. in Materials Science and Engineering from Wuhan University of Technology, he focuses on the development of low-carbon, green, and smart functional materials aimed at extending pavement life and promoting high-quality recycling. Since joining Beijing University of Technology in 2022, he has led several national and industrial research projects, particularly in asphalt modification and regeneration. His contributions have earned him prestigious recognitions, including the Outstanding Talent Award. Dr. Cao is driven by innovation and sustainability, exploring smart infrastructure solutions that align with global environmental goals. His research has practical implications in urban infrastructure development, especially in road and airport pavement systems. Dedicated to fostering future talent, he also mentors Master’s and Ph.D. students while actively collaborating with industry stakeholders to bridge academic research with real-world applications.

Professional Profile :         

Orcid

Scopus 

Summary of Suitability for Award:

Prof. Zhilong Cao is a highly suitable candidate for the “Best Researcher Award”, given his impactful contributions in the field of sustainable pavement engineering. With a strong academic background in Materials Science and Engineering, and holding a Ph.D. from Wuhan University of Technology, he has shown exemplary leadership in the development of low-carbon, smart, and green construction materials. As a Professor and Ph.D. Supervisor at Beijing University of Technology, he has spearheaded nationally funded research projects, including grants from the NSFC and China Postdoctoral Science Foundation, focusing on advanced asphalt regeneration and modification technologies. His research not only addresses academic challenges but also meets urgent industrial and environmental needs. His honors, such as the Outstanding Talent Award and Best Ph.D. Thesis Award, further reflect his merit and potential. He actively mentors future researchers and collaborates with industry, making his work both impactful and translational.

🎓Education:

Dr. Zhilong Cao completed both his Ph.D. (2018–2021) and M.S. (2015–2018) in Materials Science and Engineering from Wuhan University of Technology, one of China’s premier institutions for engineering and material innovation. During his graduate years, he conducted cutting-edge research on asphalt materials, focusing on functional modifications and sustainability. His doctoral work received wide acclaim, earning him the Outstanding Ph.D. Graduate and Thesis Award. His academic training emphasized a strong integration of theoretical knowledge and experimental practices in materials science, particularly with applications in transportation engineering. He developed specialized expertise in pavement materials, polymer modification, and asphalt regeneration technologies. His strong academic foundation and passion for materials innovation led him to a faculty position at Beijing University of Technology, where he now mentors graduate students and leads significant research initiatives. Dr. Cao’s educational path reflects both academic excellence and a clear vision toward sustainable infrastructure development.

🏢Work Experience:

Dr. Zhilong Cao began his academic career as a graduate student at Wuhan University of Technology, where he earned his M.S. and Ph.D. in Materials Science and Engineering. Following the completion of his doctorate in 2021, he joined Beijing University of Technology in January 2022 as a Professor and Ph.D. Supervisor in the Department of Road and Rail Engineering. In this role, he leads research projects on green pavement materials and mentors Master’s and Doctoral students. His academic responsibilities include developing new course materials, overseeing lab-based research, and fostering collaborations with industry to apply advanced materials in real-world contexts. He has secured multiple prestigious research grants, including from the National Natural Science Foundation of China and the China Postdoctoral Science Foundation. Dr. Cao’s professional experience demonstrates a strong trajectory from promising researcher to established academic leader, with a focus on sustainable infrastructure technologies and innovative material development.

🏅Awards: 

Dr. Zhilong Cao has received several prestigious awards in recognition of his outstanding contributions to research and academic excellence. In 2023, he was honored with the Outstanding Talent Award by Beijing University of Technology for his innovative work in the field of sustainable pavement engineering. During his Ph.D. at Wuhan University of Technology, he earned the Outstanding Ph.D. Graduate Award and the Thesis Award in 2021, reflecting the significance and impact of his doctoral research. These accolades underscore Dr. Cao’s commitment to excellence in both academic research and practical innovation. His ability to bridge theoretical insights with applied engineering solutions has made him a recognized name in his field. These honors not only mark his personal achievements but also highlight his leadership potential in driving forward environmentally friendly and high-performance pavement technologies. Dr. Cao continues to strive for innovation and sustainability in the infrastructure materials sector.

🔬Research Focus:

Dr. Zhilong Cao’s research is centered on sustainable and intelligent solutions for modern pavement infrastructure. His work explores low-carbon construction and maintenance materials, particularly for asphalt pavements, aiming to reduce environmental impact while improving performance. A key area of interest is the regeneration and recycling of SBS-modified asphalt, especially for aging road surfaces and airport runways. He also investigates green and smart functional materials that respond to environmental stimuli, enhancing pavement durability and functionality. Dr. Cao’s research extends to polyurethane-modified asphalts and innovative crosslinking networks for performance recovery in aged pavements. His interdisciplinary approach bridges materials science with transportation engineering, aligning his work with global sustainability goals. Through national projects and industry collaborations, he contributes to next-generation infrastructure technologies that emphasize longevity, efficiency, and eco-friendliness. His research has both academic and practical implications, improving the resilience and sustainability of urban transportation systems.

Publication Top Notes:

1. Investigation on Active Rejuvenation Mechanism of Aged SBS Modified Bitumen: Insights from Experiments and Molecular Dynamics

2. Laboratory Evaluation of Ultraviolet Aging Performance of Regenerated SBS Modified Bitumen Based on Active Flexible Rejuvenators with Different Molecular Structures

3. Creep Recovery Behavior of Fresh, Aged, and Rejuvenated SBS-Modified Asphalt under High Shear Stresses

4. Effect of Organic Coal Gangue Powder with Terminal Active Isocyanate Groups on the Performance of Asphalt and Its Mixture

5. VOCs Inhibited Asphalt Mixtures for Green Pavement: Emission Reduction Behavior, Environmental Health Impact and Road Performance

6. Environmentally Friendly End-Capped Polyurethane for Enhancing Asphalt-Granite Adhesion

 

 

Dr. Hyun Jung Lee | Materials chemistry | Best Researcher Award

Published on by Chemistry Awards

Dr. Hyun Jung Lee | Materials chemistry | Best Researcher Award

Dr. Hyun Jung Lee, Materials chemistry, Korea Institute of Fusion Energy, South Korea

Dr. Hyunjung Lee is a distinguished physicist and Principal Investigator at the Korea Institute of Fusion Energy (KFE) in Daejeon, South Korea. With a Ph.D. in Physics from Kyungpook National University, she has over two decades of research expertise in superconducting magnet systems, cryogenics, and fusion technology. She has made vital contributions to flagship projects like KSTAR, K-DEMO, and ITER, leading multi-million-dollar development efforts. A committed advocate for women in STEM, she represents Korea at international physics conferences and plays key roles in national scientific committees. Dr. Lee has authored over 60 peer-reviewed publications and continues to lead innovative research on high-field magnet design, quench analysis, and thermo-hydraulics. Her contributions significantly advance global nuclear fusion efforts, showcasing both technical excellence and visionary leadership.

Professional Profile :         

Scopus 

Summary of Suitability for Award:

Dr. Hyunjung Lee is a highly accomplished researcher with a robust and diverse academic and professional background in fusion energy and superconductivity. She has extensive experience in superconducting magnet systems and cryogenic technologies, leading significant projects like the development of superconducting magnets for the K-DEMO and KSTAR fusion reactors. As a principal investigator at the Korea Institute of Fusion Energy (KFE), her work involves cutting-edge research in fusion physics, including the design, analysis, and operational stability of superconducting magnets. Dr. Hyunjung Lee is undoubtedly a suitable candidate for the “Best Researcher Award”, due to her impactful research, leadership in large-scale international projects, and her contributions to the advancement of fusion energy technology. Her innovative work in superconducting magnet systems has advanced both scientific understanding and practical applications in fusion energy, making her an outstanding candidate for this prestigious award.

🎓Education:

Dr. Hyunjung Lee completed her Ph.D. in Physics at Kyungpook National University, Daegu, South Korea, in 2003. Her doctoral research focused on the behavior of materials in extreme magnetic fields and low temperatures, setting the stage for her future work in superconducting systems. Prior to that, she earned her B.S. in Physics from Daegu University in 1997. Her strong academic foundation enabled her to transition seamlessly into high-level research, with early postdoctoral training at the Korea Basic Science Institute (KBSI). Dr. Lee’s educational background reflects a deep commitment to fundamental physics, with an application-driven focus on fusion energy systems and superconducting technologies. Her continuous engagement with advanced analytical and cryogenic systems throughout her education laid the groundwork for her leadership in magnet design and thermo-hydraulic simulation for nuclear fusion applications.

🏢Work Experience:

Dr. Lee began her career as a Postdoctoral Associate (2003–2006) at the Korea Basic Science Institute (KBSI), where she researched material properties under extreme conditions. She then joined the Korea Institute of Fusion Energy (KFE) in 2006, advancing from Senior Researcher to Principal Investigator. From 2006–2013, she focused on thermo-hydraulic and quench analysis for KSTAR and K-DEMO superconducting magnets. Between 2013–2015, she contributed to cryogenic system design for the RAON project. From 2016–2018, she also served as an Associate Professor at the University of Science and Technology (UST), teaching accelerator and fusion physics. Her key achievements include designing 16T superconducting magnets, establishing experimental facilities (~$30 million), and collaborating with global fusion initiatives such as ITER, ENEA, and General Atomics. She is currently a leading figure in Korea’s national fusion reactor (K-DEMO) magnet program and a central voice in international fusion technology forums.

🏅Awards: 

While Dr. Hyunjung Lee’s CV does not list specific named awards, her achievements are reflected through her prestigious roles, international collaborations, and scientific committee appointments. She serves as an Executive Officer in the Korean Physical Society’s Academic and Women’s Committees (2021–present), showcasing her leadership in Korea’s physics community. She has been a Mentoring Fellow of the Korea Foundation for Women in Science and Technology (2008–2020), guiding the next generation of scientists. Her appointment to the Peaceful Unification Advisory Council (2015–2017) reflects national recognition beyond science. Dr. Lee frequently represents Korea in international conferences, including the International Conference on Women in Physics and the Magnet Technology Conference, evidencing her global stature. Her research is highly regarded in fusion communities and continues to influence policies and project planning at the international level. Her awards lie in the transformative impact of her research and leadership across nuclear fusion initiatives.

🔬Research Focus:

Dr. Hyunjung Lee’s research is centered on superconducting magnet systems and cryogenic thermo-hydraulics for nuclear fusion reactors. Her core contributions span magnet design, quench analysis, and the establishment of fusion magnet experimental infrastructure. A key architect of Korea’s K-DEMO and KSTAR fusion magnet programs, she focuses on developing high-field (up to 16T) superconducting magnets and advanced quench protection mechanisms. Her work includes detailed thermo-hydraulic modeling, AC loss analysis, and cooling loop simulations to ensure cryogenic stability. She also leads international collaboration on magnet technologies with partners like ITER, ENEA, and General Atomics. Dr. Lee has also contributed to the RAON rare isotope accelerator project, analyzing cryogenic systems for linear accelerators. Her research directly advances fusion energy’s feasibility, offering safe, efficient, and scalable superconducting systems for future reactors. She is a thought leader in fusion technology development, particularly in enabling long-term stability of superconducting devices under high-stress operations.

Publication Top Notes:

Design Updates of a Fusion Superconducting Conductor Test Facility Magnet (SUCCEX)

Assessment of KSTAR Nb₃Sn Superconducting Magnet Property After Long-Term Operation Since 2008

Effect of Flow Imbalance on the Operational Performance of the KSTAR PF1UL Magnets

Design Updates and Thermo-Hydraulic Analysis of K-DEMO CS Magnets

Thermo-Hydraulic Analysis of the KSTAR PF Cryogenic Loop Using SUPERMAGNET Code

Citations: 1​

 

Assoc. Prof. Dr. Shixiong Li | Inorganic Chemistry | Environmental Chemistry Award

Published on by Chemistry Awards

Assoc. Prof. Dr. Shixiong Li | Inorganic Chemistry | Environmental Chemistry Award

Assoc. Prof. Dr. Shixiong Li,  Inorganic Chemistry,  Teacher at Wuzhou University, China

Dr. Shixiong Li is a dedicated environmental scientist and academician serving as a lecturer and associate professor at Wuzhou University. He is also a master’s supervisor at Guangxi University and holds multiple expert roles, including membership in the Guangxi Science and Technology Expert Database and the Wuzhou Environmental Emergency Expert Database. Dr. Li obtained his Ph.D. in Environmental Science and Engineering from South China University of Technology in 2018. His research interests lie in the synthesis of functional environmental materials and water resource reuse technologies. With a strong presence in scientific publishing, he has authored numerous papers in prestigious journals like Angewandte Chemie International Edition, Journal of Catalysis, and Inorganic Chemistry Frontiers. He also serves as a peer reviewer for high-impact journals. In addition to academia, he contributes to legal and civic activities as a people’s assessor at the Changzhou District Court.

Professional Profile :         

Orcid

Scopus 

Summary of Suitability for Award:

Dr. Shixiong Li, currently serving as a teacher and researcher at Wuzhou University, has built a distinguished research career in the field of environmental chemistry. With a Ph.D. in Environmental Science and Engineering from South China University of Technology (2018), he has demonstrated strong academic training in environmental disciplines. Dr. Shixiong Li is a highly deserving candidate for the Research for “Environmental Chemistry Award”. His substantial contributions to environmental material synthesis and pollutant remediation directly align with the award’s mission to recognize impactful environmental chemistry research. His innovative approaches, quality publications, and practical focus on water purification and waste treatment place him among the leading researchers in this domain.

🎓Education:

Dr. Shixiong Li earned his Doctorate (Ph.D.) in Environmental Science and Engineering from South China University of Technology . His doctoral research focused on the design and synthesis of environmentally functional materials and the mechanisms underpinning water purification technologies. Prior to his Ph.D., Dr. Li completed his undergraduate and possibly master’s degrees (specific details not mentioned) likely in chemistry, materials science, or environmental engineering, forming a solid foundation for his current research. His academic journey reflects a strong commitment to interdisciplinary environmental studies, particularly involving the synthesis of metal-organic frameworks (MOFs), photocatalytic systems, and advanced adsorption materials. His education equipped him with a deep understanding of green chemistry, catalysis, nanomaterials, and environmental remediation technologies, which he now applies in both academic and real-world contexts. Dr. Li continues to expand his educational expertise through supervising graduate students and participating in academic collaborations at regional and international levels.

🏢Work Experience:

Dr. Shixiong Li currently serves as a full-time lecturer and associate professor at the School of Mechanical and Resource Engineering, Wuzhou University. He is also a recognized master’s supervisor at Guangxi University. Over the years, Dr. Li has contributed significantly to teaching, curriculum development, and guiding graduate research. His professional roles extend beyond teaching — he is an expert member of multiple scientific and technical committees, including the Guangxi Science and Technology Expert Database, Wuzhou Environmental Emergency Expert Database, and the Materials Expert Committee at Viser Publishing (Singapore). He also serves as a standardization expert and legal assessor in Wuzhou. His experience includes managing and executing national and regional research projects, particularly in the field of photocatalysis and wastewater treatment. Furthermore, he acts as a peer reviewer for elite scientific journals, such as JACS and Journal of Catalysis, demonstrating his prominence in the academic community.

🏅Awards: 

Dr. Shixiong Li has been recognized for his academic and professional excellence with various prestigious appointments and honors. He is a selected expert in the Guangxi Science and Technology Expert Database, indicating regional recognition of his expertise. In Wuzhou, he holds positions in the Environmental Emergency Expert Database and serves as a Standardization Expert, which reflect his contributions to public environmental safety and policy. His peer-reviewing roles in high-ranking SCI journals like Angewandte Chemie, JACS, and Inorganic Chemistry highlight international acknowledgment of his scientific merit. Furthermore, his appointment as a People’s Assessor at the Changzhou District Court demonstrates his trusted civic role in community and judicial matters. His invitation to the Materials Expert Committee of Viser Publishing (Singapore) further indicates global engagement in scientific publishing. Collectively, these honors underline his multifaceted contributions in research, public service, and scientific leadership.

🔬Research Focus:

Dr. Shixiong Li’s research centers on the design and synthesis of functional environmental materials, with a particular emphasis on metal-organic frameworks (MOFs) and their applications in photocatalysis, adsorption, and wastewater treatment. His work explores green, in-situ synthetic approaches for constructing Cu(I)/Cu(II) hybrid materials, aiming to degrade organic pollutants and remove heavy metals from aqueous systems efficiently. He investigates the mechanistic roles of inorganic ions and coordinated ligands in modulating the photocatalytic and adsorption performances of MOFs. Additionally, his current projects explore hydroxyl-modified two-dimensional Cu-based photocatalysts, revealing insights into molecular-level interactions that boost reactivity and selectivity. Dr. Li’s findings have advanced sustainable material applications for water reuse and environmental remediation. Through interdisciplinary approaches combining inorganic chemistry, materials science, and environmental engineering, his research contributes to scalable, eco-friendly technologies for real-world problems. His publications in top-tier journals and ongoing collaborations confirm the practical relevance and innovation of his scientific contributions.

Publication Top Notes:

1. Mechanism of Coordinated Anions Regulating the Photocatalytic Performance of Cu(I) Metal–Organic Frameworks

2. An Iron-Based Metal–Organic Framework with Strong Water Stability and Effective Adsorption of Methylene Blue from Wastewater

3. Zinc Complexes with Mixed Ligands and the Effect on Excitation and Emission Spectra by Changing the Binding Sites

4. Praseodymium–Selenium Connecting Selenotungstate Containing Mixed Building Blocks for Catalytic Synthesis of Aza-Heterocycles

5. A Two-Dimensional Cobalt-Based Metal–Organic Framework Efficiently Adsorbs Cr(VI) from Wastewater

6. Effect and Mechanism of Inorganic Ions on the Photocatalytic Performance of Amino Modified UIO-67 Type Metal–Organic Framework

7. Two‐Dimensional Copper‐Based Metal–Organic Framework for Efficient Removal of Methylene Blue from Wastewater

8. Performance and Mechanism of the Modified Group Regulated the MIL-101(Fe) Type Fenton-like Catalysts

9. A Bifunctional Three-Dimensional Zn(II) Metal–Organic Framework with Strong Luminescence and Adsorption Cr(VI) Properties

10. Effect and Mechanism of Inorganic Anions on the Adsorption of Cd²⁺ on Two-Dimensional Copper-Based Metal–Organic Framework

 

Dr. Sabereh Nouri | Biotechnology | Best Researcher Award

Published on by Chemistry Awards

Dr. Sabereh Nouri | Biotechnology | Best Researcher Award

Dr. Sabereh Nouri, Biotechnology, University of Isfahan, Iran

Dr. Sabereh Nouri is a passionate and innovative scientist specializing in microbial biotechnology. She holds a Ph.D. from the University of Isfahan, Iran, and has contributed significantly to biomaterial synthesis using non-pathogenic microorganisms. Her research intersects microbiology, cell biology, and tissue engineering, aiming to create biocompatible solutions for medical applications. Sabereh has worked internationally, including at Marmara University in Türkiye under the prestigious Erasmus+ program. Known for her collaborative spirit and mentorship, she has supervised and trained multiple students. She is currently contributing her expertise to Emam Reza Medical Clinic and previously to Torabinejad Dental Research Institute. Dr. Nouri is committed to advancing global healthcare innovation through sustainable and scientific approaches.

Professional Profile :         

Google Scholar

Orcid

Scopus 

Summary of Suitability for Award:

Dr. Sabereh Nouri is a highly promising and dedicated early-career researcher in the field of microbial biotechnology, biomaterials, and tissue engineering. Her Ph.D. work, which focuses on the biological synthesis of nano-hydroxyapatite using probiotic bacteria and its immunomodulatory effects, stands out for its novelty, interdisciplinary scope, and translational relevance. She has international research exposure through the fully funded Erasmus+ program at Marmara University, Türkiye, where she contributed to cutting-edge studies on 3D-printed bone and cardiac scaffolds.With several technical certifications, a strong commitment to translational research, and demonstrated innovation in sustainable, microbe-derived materials, Dr. Nouri exemplifies the qualities expected of a recipient of a prestigious “Best Researcher Award.” Dr. Sabereh Nouri is highly suitable for the “Best Researcher Award.” Her consistent academic excellence, pioneering research in microbial nanomaterials for biomedical use, international collaborations, and mentorship contributions collectively reflect a researcher of exceptional promise and impact. Awarding her this honor would not only recognize her achievements but also encourage further groundbreaking work in the fields of biotechnology and tissue engineering.

🎓Education:

Dr. Sabereh Nouri holds a Ph.D. in Microbial Biotechnology from the University of Isfahan, Iran (2018–2024), where her thesis focused on the biological synthesis of nano-hydroxyapatite using probiotic bacteria and evaluating its effects on inflammatory responses. She was mentored by Prof. Giti Emtiazi and Dr. Rasoul Roghanian, with additional guidance from Dr. Rasoul Shafei and Prof. Oguzhan Gunduz. She also participated in the Erasmus+ program as a researcher at Marmara University’s Center for Nanotechnology & Biomaterials Research (2022–2023), where she gained international experience in tissue engineering. Prior to this, she earned her M.Sc. in Biotechnology from Bu-Ali Sina University (2014–2016), working on the identification of probiotic bacteria from non-dairy sources. Her academic journey began with a B.Sc. in Agricultural Engineering (Plant Protection) from Isfahan University of Technology (2009–2013), which laid the foundation for her interdisciplinary research in microbiology, cell biology, and biomaterials.

🏢Work Experience:

Dr. Sabereh Nouri has accumulated significant experience across research labs and academic institutions. From 2021 to present, she has served as a Research Assistant at Emam Reza Medical Clinic in Isfahan, managing diagnostic tests and laboratory operations. Concurrently, she worked as a Cell Culture Assistant Researcher at the Professor Torabinejad Dental Research Institute, focusing on mammalian cell cultures. Her international experience includes an Erasmus+ research stint at Marmara University in Türkiye (2022–2023), working on 3D-printed biomaterials. Between 2018 and 2021, she supervised labs at the University of Isfahan, mentoring graduate students and coordinating research projects. Earlier, she was a Research Assistant at Bu-Ali Sina University and Isfahan University of Medical Sciences, contributing to projects on plant endophytes, probiotics, and food microbiology. Her career reflects a strong commitment to interdisciplinary science, hands-on training, and collaborative research in microbiology, tissue engineering, and biotechnology.

🏅Awards: 

Dr. Sabereh Nouri has been recognized for her scientific excellence and commitment to research. In 2023, she received the Best Paper Award from the Academy of Romanian Scientists for her outstanding presentation on “3D Printing of Scaffolds for Bone Tissue Engineering Based on Bacterial Hydroxyapatite.” As part of the Erasmus+ program, she was fully funded by the European Union to conduct research at Marmara University, Türkiye, where she also completed the prestigious Biomaterials and Tissue Engineering Course under the CVL4OT initiative, a European collaborative project. In addition, she successfully completed multiple advanced training courses at Shiraz University Central Laboratory, including hands-on programs in Electrospinning, FT-IR, NIR, Flow Cytometry, XRD, SEM, and HSE. These accolades and certifications reflect her continuous professional development and recognition by both national and international scientific communities for her innovation and commitment to biomaterials and microbiological research.

🔬Research Focus:

Dr. Sabereh Nouri’s research bridges microbiology, biotechnology, and biomaterials, with a special emphasis on biological synthesis of nanomaterials using non-pathogenic microorganisms. Her Ph.D. work involves developing nano-hydroxyapatite using probiotic bacteria and studying its anti-inflammatory effects, aiming to apply it in tissue engineering and regenerative medicine. She is especially interested in 3D bioprinting, the interaction of microbial biomaterials with mammalian cells, and immunomodulatory properties of engineered nanocomposites. During her Erasmus+ research tenure in Türkiye, she explored 3D-printed cardiac patches and bone scaffolds, combining advanced characterization methods and cell-based assays. Additionally, she has studied probiotics from non-dairy sources, endophytic microbes, and microbial interactions in food and medical samples. Her work is deeply interdisciplinary, merging cell biology, nanotechnology, and microbial biotechnology to innovate in biomedical material development. Dr. Nouri is passionate about translational research, with an eye on sustainable, microbe-based solutions for human health challenges.

Publication Top Notes:

1. Biosynthesis of Nano-Calcite and Nano-Hydroxyapatite by the Probiotic Bacteria of Bacillus subtilis and Bacillus coagulans

Citations: 6

2. Review on Biological Synthesis of Nano-Hydroxyapatite and Its Application in Nano-Medicine

Citations: 5

3. Biochemical and Molecular Identification of Probiotic Bacteria, Lactobacillus plantarum, Isolated from Apple Vinegar

Citations: 5

4. On-Demand Release of Fucoidan from 3D-Printed Cardiac Scaffolds Based on Chitosan/Silk Fibroin/Polyaniline

Citations: 3

5. Advanced 3D Printed Bone Scaffolds with Sodium Alginate/Tri-Calcium Phosphate/Probiotic Bacterial Hydroxyapatite: Enhanced Mechanical and Biocompatible Properties for Bone…

Citations: 3

6. Osteoblastic Differentiation of Stem Cells from Human Exfoliated Deciduous Teeth by Probiotic Hydroxyapatite

Citations: 2

7. Anticancer, Antioxidant and Antibacterial Activities of Extracts from Scrophularia striata and Elaeagnus angustifolia, Growing in Ilam and Kurdistan Provinces in Iran

Citations: 2

8. Microbial Synthesis of Nano-Selenium and Nano-Titanium Dioxide: Mechanisms of Selenite Respiration

Citations: 1

9. Isolation and Biochemical and Molecular Identification of Lactobacillus plantarum Bacteria from Rhizosphere of Lenjan Rice

Citations: 1

10. 3D-Printable Wound Patch Composed of Vitamin E-Enriched Polylactic Acid Scaffolds

 

Mr. Yong-Feng Cheng | Organic Chemistry | Best Researcher Award

Published on by Chemistry Awards

Mr. Yong-Feng Cheng | Organic Chemistry | Best Researcher Award

Mr. Yong-Feng Cheng , Organic Chemistry, Anhui Normal University, China

Dr. Yong-Feng Cheng is an Associate Professor at the School of Chemistry and Materials Science, Anhui Normal University, China. He is a leading researcher in the field of radical chemistry and enantioselective catalysis. After earning his Ph.D. in Organic Chemistry from Nankai University, he pursued postdoctoral and faculty roles at the Southern University of Science and Technology, where he made significant contributions to copper-catalyzed asymmetric transformations. Dr. Cheng’s research, published in prestigious journals such as Nature Chemistry, JACS, and Nature Catalysis, emphasizes radical-based bond-forming reactions and novel catalytic systems. With a solid background in pharmacy and pharmaceutical analysis, he bridges organic synthesis with potential bioactive molecule development. His work is characterized by mechanistic insight, innovation in catalyst design, and collaboration with renowned scientists like Prof. X. Liu and Prof. K.N. Houk. Dr. Cheng continues to push boundaries in modern synthetic chemistry, mentoring students and contributing to cutting-edge discoveries.

Professional Profile :         

Orcid

Scopus  

Summary of Suitability for Award:

Assoc. Prof. Yong-Feng Cheng stands out as a highly suitable candidate for the “Best Researcher Award” . Based on his exceptional publication record, breakthrough contributions to enantioselective radical chemistry, rapid career advancement, and international collaboration, Assoc. Prof. Yong-Feng Cheng is highly deserving of the “Best Researcher Award.” His work reflects a balance of innovation, depth, and scientific rigor, and he has already made a significant mark in modern synthetic chemistry. Granting him this recognition would not only honor a deserving candidate but also inspire broader excellence in chemical sciences.

🎓Education:

Yong-Feng Cheng began his academic journey with a Bachelor’s degree in Pharmacy from Wannan Medical College (2005–2009). Motivated by a strong interest in the analytical and chemical aspects of drug development, he pursued a Master of Science in Pharmaceutical Analysis at Tianjin University of Traditional Chinese Medicine (2009–2012). His growing passion for organic synthesis led him to Nankai University, where he earned his Ph.D. in Organic Chemistry (2012–2015). At Nankai, he specialized in developing synthetic methodologies and advanced radical transformations. His doctoral training laid a solid foundation for his future work in radical catalysis. With this multidisciplinary education—spanning pharmacy, analytical science, and organic chemistry—Dr. Cheng brings a uniquely integrated perspective to the development of functional molecules and asymmetric synthesis. His academic background enables him to innovate at the intersection of fundamental chemistry and potential therapeutic applications.

🏢Work Experience:

Dr. Yong-Feng Cheng has steadily advanced through competitive academic roles in China’s premier institutions. From 2016 to 2018, he worked as a postdoctoral fellow at the Southern University of Science and Technology (SUSTech), collaborating on pioneering research in enantioselective radical transformations. Recognized for his innovative approach, he was promoted to Research Assistant Professor at SUSTech (2018–2022), where he co-authored several high-impact papers and contributed significantly to catalyst development. In 2023, he joined Anhui Normal University as an Associate Professor in the School of Chemistry and Materials Science. His current role involves leading a research group focused on asymmetric catalysis, mentoring graduate students, and securing national research grants. With a blend of research acumen and teaching excellence, Dr. Cheng continues to shape the future of synthetic chemistry, integrating his deep understanding of radicals, catalysis, and reaction mechanisms across disciplines.

🏅Awards: 

While the specific awards and honors of Dr. Yong-Feng Cheng are not explicitly listed, his track record of publishing in journals like Nature Chemistry, JACS, and Angewandte Chemie reflects high recognition in the international scientific community. Being co-first and corresponding author in several high-impact papers demonstrates peer acknowledgment of his leading role in radical catalysis. His research collaborations with globally renowned scientists like Prof. K.N. Houk and Prof. X. Liu further validate his standing as an innovative researcher. His rapid career progression—from Ph.D. to Associate Professor in under a decade—is itself a testimony to his scientific excellence. He has likely received institutional recognition for teaching and research performance and may have earned national-level research grants or young scientist accolades. As his work continues to draw citations and attention, more formal honors are anticipated in the near future.

🔬Research Focus:

Dr. Yong-Feng Cheng’s research is centered on enantioselective radical transformations, with a focus on copper-catalyzed asymmetric reactions. His work explores the interface of Organic chemistry and catalysis, developing novel methodologies for constructing C–O, S–O, and C–C bonds with high stereo control. His synthetic strategies employ innovative ligand systems and cooperative catalysis to achieve de- symmetrization and functionalization of otherwise inert molecules. Dr. Cheng has contributed significantly to the design of catalytic systems that enable precise manipulation of reactive radical intermediates, with potential applications in pharmaceuticals, agrochemicals, and material science. He is particularly interested in mechanistic insights, transition-state modeling, and computational collaboration to understand catalytic pathways. With a strong background in both pharmacy and organic synthesis, Dr. Cheng’s research is both methodologically rigorous and application-oriented. His group continues to develop sustainable and scalable reactions for asymmetric synthesis, including redox-triggered transformations and metal-catalyzed coupling strategies.

Publication Top Notes:

1. A P‐nucleophile Interrupted Seyferth‐Gilbert Reaction

2. Synthesis of Axially Chiral Vinyl Halides via Cu(I)-Catalyzed Enantioselective Radical 1,2-Halofunctionalization of Terminal Alkynes

3. Cu(I)-Catalyzed Chemo- and Enantioselective Desymmetrizing C–O Bond Coupling of Acyl Radicals

4. Cu-Catalyzed Enantioselective Radical Heteroatomic S–O Cross-Coupling

5. Catalytic Enantioselective Desymmetrizing Functionalization of Alkyl Radicals via Cu(I)/CPA Cooperative Catalysis

6. Desymmetrization of Unactivated Bis-Alkenes via Chiral Brønsted Acid-Catalyzed Hydroamination

7. Achiral Pyridine Ligand-Enabled Enantioselective Radical Oxytrifluoromethylation of Alkenes with Alcohols

8. Synthesis of γ-Lactams by Mild, o-Benzoquinone-Induced Oxidation of Pyrrolidines Containing Oxidation-Sensitive Functional Groups

9. Redox-Triggered α-C–H Functionalization of Pyrrolidines: Synthesis of Unsymmetrically 2,5-Disubstituted Pyrrolidines

10. A New Practical Approach Towards the Synthesis of Unsymmetric and Symmetric 1,10-Phenanthroline Derivatives at Room Temperature

 

Prof. Belgin Coşge Şenkal | Biochemistry | Best Researcher Award

Published on by Chemistry Awards

Prof. Belgin Coşge Şenkal | Biochemistry | Best Researcher Award

Prof. Belgin Coşge Şenkal , Biochemistry , Yozgat Bozok University , Turkey

Professor Belgin Coşge Şenkal is a distinguished academic in the field of agricultural sciences, specializing in arable crops and plant breeding. She is currently a faculty member at Bozok University’s Faculty of Agriculture in Yozgat, Turkey. Throughout her career, Professor Şenkal has made significant contributions to the study of medicinal plants and aromatic plants, oil crops, and plant breeding. Her research has garnered substantial recognition, with over 1,400 citations, reflecting her influence in the scientific community.

Professional Profile :         

Orcid

Scopus 

Summary of Suitability for Award:

Professor Belgin Coşge Şenkal is a highly accomplished academician and researcher in the field of agricultural sciences, with a specialization in plant breeding, medicinal plants and aromatic plants, and oil crops. Her extensive research has been instrumental in advancing knowledge in these critical areas of agronomy, particularly under the ecological conditions of Turkey. Based on her strong publication record, high citation impact, dedicated mentorship, and contributions to sustainable agricultural practices, Professor Belgin Coşge Şenkal is highly suitable for the “Best Researcher Award.” Her pioneering work in medicinal and aromatic plants, oil crops, and plant breeding has had a significant influence on modern agricultural practices and natural product research. She exemplifies the qualities of a visionary and impactful researcher, making her a deserving candidate for this prestigious recognition.

🎓Education:

Professor Şenkal’s academic journey began with a Bachelor’s degree from Ankara University’s Faculty of Agriculture in 1994.She then pursued a Master’s degree at the same institution, completing her thesis in 1996 on the selection of genetically male-sterile sunflower lines and their impact on seed yield. In 2001, she earned her Ph.D. with a dissertation focusing on the effects of natural pollination on the yield and yield components of genetically male-sterile sunflower hybrids.

🏢Work Experience:

Professor Şenkal has held various academic positions, including Assistant Professor and Associate Professor roles at Abant Izzet Baysal University. In 2016, she was appointed as a Professor at Bozok University, where she continues to teach and conduct research. Her mentorship has guided numerous graduate students, supervising over 20 theses on topics ranging from the effects of salicylic acid on coriander growth to the impact of different sowing times on camelina yield.

🏅Awards: 

Specific details about Professor Şenkal’s awards and honors are not readily available in the provided information. However, her extensive publication record, significant citation count, and progression to a full professorship indicate a high level of recognition and respect in her field. Her involvement in numerous research projects and her role in supervising graduate students further underscore her contributions to agricultural sciences.

🔬Research Focus:

Professor Şenkal’s research primarily revolves around medicinal plants and aromatic plants, oil crops, plant breeding, essential oils, and biological activity. She has investigated the effects of various treatments on plant growth and yield, such as the impact of salicylic acid on coriander and the influence of different phosphorus doses on essential oil content. Her work aims to enhance the understanding and cultivation of these plants, contributing to advancements in agricultural practices.

Publication Top Notes:

 Evaluation of antioxidant, antimicrobial, enzyme inhibition activity, and cell viability capacity of Hypericum heterophyllum Vent., an endemic species in Turkey’s Flora

Investigation of the Usability of Biodiesel Produced from Coriander (Coriandrum sativum L.) Gürbüz Registered Variety Crude Oil in Diesel Engines

The Impact of Morpho- and Onto-Genetic Variation on Essential Oil Profile of Hypericum heterophyllum Vent., an Endemic Species in Turkey’s Flora

Impacts of essential oil and extracts obtained from coriander cultivars (Coriandrum sativum L.) on some important pathogenic bacteria

Biological activities of different plant species belonging to the Asteraceae family

Fatty Acid Composition of Seed Oil from Cocklebur (Xanthium strumarium Subsp. strumarium) Grown in Turkey

Evaluation of Seedling Development and Physical Characteristics, Viability and Germination of Seeds in Some Lamiaceae Taxa

Farklı fosfor dozlarının kişniş (Coriandrum sativum L.) bitkisinde verim, verim özellikleri ve uçucu yağ oranı üzerine etkileri

Phytochemical composition of wild lemon balm (Melissa officinalis L.) from the flora of Bulgaria

Hypericum taxa of Turkey’s flora and intra-population variation of morpho-agronomic traits in H. heterophyllum Vent., an endemic species

Determination of essential oil components, mineral matter, and heavy metal content of Salvia virgata Jacq. grown in culture conditions

The Effect of Cuttings Stages on Components and Content of Essential Oils from Salvia viridis L.

 

 

 

Assist. Prof. Dr. Emilia Paone | Industrial Chemistry | Young Scientist Award

Published on by Chemistry Awards

Assist. Prof. Dr. Emilia Paone | Industrial Chemistry | Young Scientist Award

Assist. Prof. Dr. Emilia Paone , Industrial Chemistry , Assistant Professor at Università degli Studi Mediterranea di Reggio Calabria, Italy

Dr. Emilia Paone is a dynamic and forward-thinking Fixed-Term Researcher (RTD-B) at the Università degli Studi Mediterranea di Reggio Calabria, specializing in Industrial Chemistry (SSD: CHIM/07). Born on September 14, 1990, in Reggio Calabria, Italy, she has emerged as a leading young scientist in the field of heterogeneous catalysis for sustainable chemical transformations. Her research pivots on the valorization of waste biomass and plastic residues into high-value chemicals and fuels. With over 41 peer-reviewed international publications, an h-index of 21, and significant international collaborations, Dr. Paone has built a formidable academic presence. She has held multiple national scientific qualifications for associate professorship in both CHIM/04 and CHIM/07. Her global perspective is enriched by research periods in Spain and collaboration with industrial partners. An active voice in green chemistry and environmental sustainability, she is a rising star driving innovation in catalytic materials and waste valorization technologies.

Professional Profile :         

Orcid

Scopus 

Summary of Suitability for Award:

Dr. Emilia Paone exemplifies the core qualities sought in a “Young Scientist Award” recipient. With a Ph.D. in Civil, Environmental, and Safety Engineering, she has consistently demonstrated scientific maturity, innovation, and dedication in the realm of green and sustainable chemistry. Her postdoctoral and fixed-term research roles, particularly under national initiatives such as DM 1062/2021 in thematic GREEN areas, highlight her alignment with sustainability and circular economy goals. She has published 41 peer-reviewed papers, authored 2 book chapters, and amassed over 2,000 citations with an h-index of 21, which is remarkable for a young researcher. Her work on heterogeneous catalysis, biomass valorization, and e-waste upcycling contributes meaningfully to global sustainability challenges. She has held international research roles, including ERASMUS+ staff mobility in Spain, showing global engagement and collaborative spirit. Moreover, she has achieved dual National Scientific Qualifications for Associate Professor roles, underscoring her excellence and leadership potential.Dr. Emilia Paone’s proven research excellence, international collaborations, impactful publications, and clear contribution to sustainable technologies make her a strong, deserving, and outstanding candidate for the “Young Scientist Award’. Her work not only meets but exceeds the typical expectations for this recognition, and she stands as a role model for early-career researchers in green and industrial chemistry.

🎓Education:

Dr. Paone earned her Bachelor’s (2009–2013) and Master’s Degrees (2013–2015) in Chemistry from the Università degli Studi di Messina. She then completed her Ph.D. in Civil, Environmental, and Safety Engineering (2015–2018) at the Università degli Studi Mediterranea di Reggio Calabria, specializing in Science and Technology, Materials, and Energy. Her doctoral thesis was titled “Transfer Hydrogenolysis of Lignin and its Derived Aromatic Ethers Promoted by Heterogeneous Bimetallic Pd-Based Catalysts.” She has also completed a qualification exam in chemistry exercise in 2015. Emilia further enhanced her academic training with research internships in both Italy and Spain, including studies on chemical equilibria and potable water analysis. Notably, she has enriched her learning with international research mobility under Erasmus+, and visiting positions in Spain, gaining practical expertise in nanostructured materials, catalysis, and green technologies.

🏢Work Experience:

Dr. Paone currently serves as a Fixed-Term Researcher (RTD-B) at Università degli Studi Mediterranea di Reggio Calabria (since March 2024), focusing on Industrial Chemistry. Previously, she held an RTD-A position (2022–2024) under Italy’s GREEN program (Action IV.6), collaborating with Capua 1880 s.r.l. on sustainable technologies. Earlier, as a postdoctoral researcher (2021), she worked on the environmental sustainability of materials recovered from lithium battery waste. From 2019 to 2021, she worked with the University of Florence and Reggio Calabria on nanostructured materials for detecting metal ions in solutions. During her Ph.D. and internships, she explored lignin valorization and heterogeneous catalysis. Internationally, she served as a Visiting Researcher and Professor at the University of Córdoba, Spain, and as a Ph.D. student researcher in the same institution. Her experience spans academia, industrial collaboration, and international teaching and research exchanges—showcasing both scientific excellence and applied innovation.

🏅Awards: 

Dr. Emilia Paone has achieved significant recognition in the field of sustainable chemistry and heterogeneous catalysis through her impactful research and academic contributions. She holds two prestigious National Scientific Qualifications (Abilitazione Scientifica Nazionale) for the role of Associate Professor—one in Industrial Chemistry (CHIM/04 – 03/C2) awarded in 2023, and another in Principles of Chemistry for Applied Technologies (CHIM/07 – 03/B2) awarded in 2022. These qualifications are a testament to her high scientific standards and professional competence, as evaluated by national committees in Italy. Furthermore, her international engagement and excellence were highlighted when she was selected as a Visiting Researcher and Professor under the ERASMUS+ Staff Mobility program in 2023 at the Universidad de Córdoba, Spain. Her academic visibility is reinforced by her impressive bibliometric indicators, with over 2,000 citations and an h-index of 21, showcasing her growing influence in catalysis, green chemistry, and the valorization of waste to high-value products.

🔬Research Focus:

Dr. Paone’s research is at the cutting edge of green chemistry 🌱, with a core focus on heterogeneous catalysis for the valorization of waste and biomass into value-added products such as bioplastics, biofuels, and fine chemicals. Her work spans the transfer hydrogenolysis of lignin, reductive catalytic upgrading of plastic waste, and photocatalytic degradation of pollutants, contributing to sustainable circular economy models. She has developed MOF-derived, single-atom, and bimetallic Pd-based catalysts that efficiently convert industrial and e-waste streams. She actively collaborates on projects transforming orange peels, PET, polyolefins, and lithium battery residues into useful chemicals via eco-friendly methods. Her interdisciplinary approach combines catalyst design, nanomaterials, environmental remediation, and flow chemistry, with a strong emphasis on industrial scalability and green metrics. Dr. Paone’s research consistently addresses pressing climate and sustainability goals, establishing her as a key player in Europe’s scientific green transition.

Publication Top Notes:

Continuous flow production of γ-valerolactone from methyl-levulinate promoted by MOF-derived Al₂O₃–ZrO₂/C catalysts

Waste-minimized access to diarylamines and triarylamines via Csp²–N coupling under batch and flow conditions

E-Waste Wars: The Catalyst Awakens

Long-Term Preservation of Orange Peel Waste for the Production of Acids and Biogas

Direct Reuse of Spent Lithium-Ion Batteries as an Efficient Heterogeneous Catalyst for the Reductive Upgrading of Biomass-Derived Furfural

The reductive catalytic upcycling of polyolefin plastic waste

Hydrothermal Carbonization as Sustainable Process for the Complete Upgrading of Orange Peel Waste into Value-Added Chemicals and Bio-Carbon Materials

A New Biorefinery Approach for the Full Valorisation of Anchovy Residues: Use of the Sludge Generated during the Extraction of Fish Oil as a Nitrogen Supplement in Anaerobic Digestion

Electrospun Nanofibers and Electrochemical Techniques for the Detection of Heavy Metal Ions.

Self Standing Mats of Blended Polyaniline Produced by Electrospinning

Integral valorization of orange peel waste through optimized ensiling: Lactic acid and bioethanol production

Sustainably Sourced Olive Polyphenols and Omega-3 Marine Lipids: A Synergy Fostering Public Health