Tag: Chemistry Achievement Award

Summary of Suitability for Award:

Faranak Hatami is a highly suitable candidate for a “Best Researcher Award”. She demonstrates exceptional multidisciplinary expertise spanning physics, molecular dynamics, machine learning, and nuclear materials science. Her Ph.D. work at UMASS Lowell innovatively combines atomic-scale simulations with AI to optimize force field parameters for Tri-Butyl-Phosphate, addressing both fundamental science and practical applications. She has authored several impactful publications in reputable journals and preprints, covering diverse topics from radiation damage in metals to machine learning models predicting thermodynamic properties. Her research portfolio includes complex computational modeling, multi-objective optimization, and advanced materials analysis. Additionally, Faranak’s teaching record and successful research internship in Canada reflect her commitment to knowledge dissemination and international collaboration. Her ability to merge computational physics with machine learning showcases originality and forward-thinking, key attributes for top research honors. Faranak Hatami embodies the qualities of a best researcher: scientific rigor, innovative thinking, multidisciplinary skillset, and impactful publications. Her contributions significantly advance computational methods in physical sciences and engineering, making her a strong and deserving candidate for a “Best Researcher Award”.

🎓Education:

Faranak Hatami is completing her Ph.D. in Physics at the University of Massachusetts Lowell (2021–2025), with her thesis focused on transport property analysis and optimization of force field parameters for Tri-Butyl-Phosphate (TBP), combining atomic-scale simulations with machine learning. Prior to this, she earned her M.Sc. in Physics from the same university in 2023, where she conducted a comparative study of force fields for liquid TBP using molecular dynamics. Earlier, she obtained her M.Sc. in Nuclear Engineering from Shahid Beheshti University in Iran (2016), where she examined radiation damage effects on zirconium and iron grain boundaries through simulations. Her academic journey began with a B.S. in Electrical Engineering from Kurdistan University in 2013. Throughout her studies, Faranak has integrated advanced computational methods, AI, and experimental data analysis, building a multidisciplinary foundation that connects physics, materials science, and engineering disciplines.

🏢Work Experience:

Faranak Hatami brings diverse experience across research, teaching, and technical projects. At UMASS Lowell, she serves as a Teaching Assistant in Physics while pursuing her Ph.D., guiding students through complex concepts. Previously, she lectured on Computational Methods and Statistical Methods and Physics courses at Shahid Beheshti University between 2014 and 2018. Her research career includes an internship at the University of Montreal (2019–2021), exploring hydrogen’s effects on iron grain boundaries using the kinetic activation relaxation technique (k-ART). Faranak has led significant academic projects spanning molecular dynamics simulations, multi-objective optimization, and machine learning applications in material science. She has deep expertise in computational tools such as LAMMPS, MCNP, VASP, and Python-based AI frameworks. Her work reflects a unique blend of fundamental physics research, practical problem-solving, and advanced data analysis, contributing to fields like chemical engineering, nuclear materials, and computational modeling.

🏅Awards:

Faranak Hatami has built an impressive research portfolio during her academic career, reflected in multiple publications and conference presentations. While specific named awards were not explicitly listed in her profile, her contributions have earned her recognition through invited presentations such as at the AIChE Annual Meeting, showcasing her expertise in molecular dynamics simulations and force field optimization. Completing dual M.Sc. degrees in Physics and Nuclear Engineering highlights her dedication and academic excellence. Her selection as a research intern at the University of Montreal, working on advanced computational studies in materials science, further underscores her capability and esteem in her field. Through her multidisciplinary approach integrating AI, molecular modeling, and nuclear materials science, she stands out as a rising scholar contributing valuable insights to computational physics and chemical engineering. As she advances her Ph.D., she is poised for further accolades in research innovation and scientific community engagement.

🔬Research Focus:

Faranak Hatami focuses her research on the intersection of molecular dynamics simulations, machine learning, and materials science. Her Ph.D. work centers on analyzing transport properties and optimizing force field parameters for Tri-Butyl-Phosphate (TBP) using multi-objective optimization algorithms like NSGA-II/III. She applies molecular dynamics to predict critical thermodynamic and transport properties, integrating neural networks for parameter tuning. Additionally, she explores AI-based classification of microscopy and atomic-scale images, blending physics with cutting-edge data science. Faranak’s earlier research in nuclear engineering examined radiation damage in metals such as zirconium and nickel, utilizing techniques like climbing image nudged elastic band (CI-NEB) for defect analysis. She’s also investigated hydration free energies, grain boundary behaviors, and primary knock-on atom (PKA) spectra in irradiated materials. Her work bridges computational physics with practical engineering challenges, advancing predictive models and simulation methods to better understand complex molecular and material systems.

Publication Top Notes:

✅ Comparative Analysis of Machine Learning Models for Predicting Viscosity in Tri-n-Butyl Phosphate Mixtures Using Experimental Data

Citations: 6

✅ Quantification of Methane Hydration Energy Through Free Energy Perturbation Method

✅ Comparison of Different Machine Learning Approaches to Predict Viscosity of Tri-n-Butyl Phosphate Mixtures Using Experimental Data

Citations: 3

✅ Properties of Tri-Butyl-Phosphate from Polarizable Force Field MD Simulations

Citations: 1

✅ A Revision of Classical Force Fields for Tri-N-Butyl Phosphate Molecular Dynamics Simulations

✅ Interaction of primary cascades with different atomic grain boundaries in α-Zr: An atomic scale study

Citations: 34

✅ An energetic and kinetic investigation of the role of different atomic grain boundaries in healing radiation damage in nickel

Citations: 31

Mr. Tomasz Zieliński | Organic Chemistry | Innovative Research Award

Published on 27/06/202527/06/2025 by Chemistry Awards

Mr. Tomasz Zieliński | Organic Chemistry | Innovative Research Award

Mr. Tomasz Zieliński , Organic Chemistry, Nicolaus Copernicus University in Toruń , Poland

Tomasz Zielińsk , is an experienced chemical technologist with over 16 years in the refining and petrochemical industries. Working primarily at ORLEN S.A. in Płock, he’s contributed extensively to production technology, process optimization, and innovative projects enhancing refinery capacities by up to 40%. As an expert in alternative fuels and sustainable technologies, Tomasz serves on several national groups dealing with alternative fuels, climate regulations, and product quality. He’s currently pursuing a Ph.D. at Nicolaus Copernicus University in Toruń, focusing on innovative processes like microbiological hydrocarbon decomposition. With patented technology to produce valuable compounds like isopropanol and hydrogen, he envisions expanding synthetic fuel production to meet EU directives like RED III and Fit for 55. Known for analytical skills, innovative thinking, and leadership in project execution, Tomasz is a key figure driving technological transformation in Poland’s energy sector.

Professional Profile :

Summary of Suitability for Award:

Developed a patented microbiological process for decomposing hydrocarbon residues into valuable compounds like isopropanol and hydrogen. Proposed using this technology to boost synthetic fuel production and hydrogen integration, contributing to EU climate goals. Successfully resolved critical fuel quality issues (Jet A-1, diesel), safeguarding production reliability and market reputation. Led projects implementing new fuel formulations (e.g. Efecta fuels), demonstrating practical innovation. Strong analytical skills, innovation mindset, project management, and cross-disciplinary collaboration. Demonstrated ability to translate complex research into real-world applications. Tomasz Zieliński’s track record of technological innovations, impactful problem-solving, and visionary research directions positions him as a very strong candidate for the “Innovative Research Award”. His unique blend of industrial experience, scientific research, and successful technology implementations aligns perfectly with the award’s purpose of recognizing groundbreaking contributions that advance industry and sustainability. His work has the potential to contribute significantly to cleaner fuels, process efficiency, and Europe’s climate goals, underscoring his innovative spirit and leadership in his field.

🎓Education:

Tomasz Zieliński’s educational path reflects his dedication to chemical technology and industrial safety. He began at the Zespół Szkół Centrum Edukacji in Płock, where he qualified as a Technician in Chemical Technology (2002-2006). He then earned his Bachelor’s degree in Chemical Technology (specializing in organic technology) at the Warsaw University of Technology (2006-2010). Continuing at the same university, he completed his Master of Engineering in Chemical Technology in 2012. Recognizing the importance of workplace safety, he pursued postgraduate studies in Occupational Health and Safety at the Cracow University of Technology in 2012-2013. Currently, he’s working toward a Ph.D. at Nicolaus Copernicus University in Toruń, diving deeper into innovative chemical processes and technologies. His diverse education equips him with technical expertise, research capabilities, and a keen understanding of industrial standards, crucial for leading advanced projects in the petrochemical sector.

🏢Work Experience:

Over 16 years, Tomasz Zieliński has built a robust career at ORLEN S.A., gaining hands-on and strategic experience. From 2004-2009, he undertook practical training on various installations like Catalytic Cracking, Olefins II, and butadiene production. Between 2009 and 2014, he worked as a Senior Process Operator on the Claus installation. From 2015 to mid-2023, he held the position of Senior Specialist in the Technology Office, tackling complex issues like diesel fuel stability and Jet A-1 fuel quality. Since July 2023, he’s been an Expert in the Project Coordination Team, overseeing efficiency, development, and revitalization projects. Notable achievements include resolving quality problems in fuels, leading technological trials for HVO blending, and coordinating large-scale innovation projects. His experience spans process optimization, analytical testing, project management, and implementation of new technologies, making him an essential contributor to refining and petrochemical advancements.

🏅Awards:

Although specific official awards weren’t detailed in the CV text, Tomasz Zieliński’s professional record showcases significant achievements and recognition within ORLEN S.A. and the broader industry. His contributions have been acknowledged through leadership roles in critical projects, particularly resolving quality challenges in diesel and jet fuels and pioneering new fuel blends like Efecta. His patented technology for microbiological decomposition of residual hydrocarbons underscores his innovative drive and commitment to sustainability. Participation in national groups under POPIHN (Polish Organization of Oil Industry and Trade) reflects peer recognition of his expertise in alternative fuels, climate policy, and regulatory matters. His ongoing Ph.D. research also highlights academic pursuit and potential future honors. Tomasz’s career is marked by trust and respect from colleagues and industry leaders, testifying to his reputation as a talented, forward-thinking professional dedicated to technological progress and environmental responsibility.

🔬Research Focus:

Tomasz Zieliński’s research centers on sustainable energy and petrochemical innovation. His current Ph.D. work at Nicolaus Copernicus University explores microbiological decomposition of residual hydrocarbons, leading to production of isopropanol and hydrogen — crucial raw materials for petrochemical processes and synthetic fuels. His focus aligns with EU sustainability goals like RED III and Fit for 55, aiming to decarbonize fuel production and optimize refinery operations. Beyond his academic pursuits, Tomasz engages in practical projects, such as integrating hydrogen and synthetic fuel production into ORLEN’s infrastructure, utilizing innovative methods to maximize plant capacities. He’s deeply involved in evaluating fuel quality, blending biocomponents like HVO with diesel, and advancing new fuel formulations. His work bridges industrial application and scientific research, demonstrating how innovative technologies can drive energy transformation and secure Poland’s position in the evolving global energy market.

Publication Top Notes:

🧪 Synthesis of Silver Nanoparticles by Chemical Vapor Deposition Method and Its Application in Laser Desorption/Ionization Techniques

Prof. Dr. Xuanmeng He | Inorganic Chemistry | Best Researcher Award

Published on 13/06/202513/06/2025 by Chemistry Awards

Prof. Dr. Xuanmeng He | Inorganic Chemistry | Best Researcher Award

Prof. Dr. Xuanmeng He , Inorganic Chemistry , Laboratory Chief at Shaanxi University of Science and Technology, China

Prof. He Xuanmeng is a distinguished faculty member at the School of Materials Science and Engineering, Shaanxi University of Science and Technology. With a profound dedication to material innovation and functional nanomaterials, he has risen through academic ranks from lecturer to full professor since joining the university in 2008. His research primarily focuses on energy-related materials, including high-entropy oxides, electrocatalysts for oxygen evolution reactions (OER), and advanced color pigments. A prolific researcher, Prof. He has authored several impactful publications in reputed journals like Journal of Alloys and Compounds, ACS Applied Nano Materials, and Journal of Colloid and Interface Science. His interdisciplinary approach bridges inorganic chemistry, electrochemistry, and materials engineering. Through years of rigorous academic training and research, he has emerged as a key contributor to China’s materials science domain. Prof. He continues to inspire future scientists through both his scholarly work and academic leadership.

Professional Profile :

Summary of Suitability for Award:

Prof. He Xuanmeng, currently serving as a Professor at the School of Materials Science and Engineering, Shaanxi University of Science and Technology, exemplifies all the qualities befitting a recipient of the “Best Researcher Award”. His academic path, entirely pursued at Shaanxi University, reflects both loyalty and progressive excellence in materials science. With over 15 years of research experience, he has consistently advanced from lecturer to full professor, demonstrating a strong trajectory of academic growth and leadership. Prof. He Xuanmeng is a highly qualified and deserving nominee for the “Best Researcher Award”. Honoring him with this award would be a recognition of research excellence, sustained innovation, and impactful scholarship. His research output includes high-impact publications in reputed international journals such as ACS Applied Nano Materials, Journal of Alloys and Compounds, and Journal of Colloid and Interface Science.Prof. He’s ability to integrate multifunctionality, sustainability, and performance optimization in material design stands out. His interdisciplinary work impacts both the energy sector and ceramic industries, illustrating his broad contribution to science and technology. His work on high-entropy oxides, energy electrocatalysts, Li-S battery materials, and environmentally friendly ceramic pigments showcases innovation, application relevance, and scientific depth. Moreover, his expertise bridges nanomaterials, electrochemistry, and optical engineering, aligning with contemporary global research priorities.

🎓Education:

Prof. He Xuanmeng’s academic journey is deeply rooted in Shaanxi University of Science and Technology, where he pursued all three degrees in materials science. He earned his Ph.D. in Materials in 2018, focusing on advanced material synthesis and applications. Earlier, he completed his Master’s in Materials Physics and Chemistry in 2008, laying the foundation for his work on functional coatings and hybrid materials. His undergraduate degree, completed in 2005, was in Inorganic Non-metallic Materials Engineering—a program emphasizing ceramics, pigments, and structural materials. This consistent academic path has endowed him with a deep, layered understanding of both the theoretical and applied aspects of materials science. The continuity of education at the same institution reflects his long-standing commitment to its academic culture and research goals. His comprehensive training across materials chemistry and engineering now informs his innovative research in energy materials and ceramic-based nanostructures.

🏢Work Experience:

Prof. He Xuanmeng began his professional career in 2008 as a Lecturer at Shaanxi University of Science and Technology. With a passion for research and academic excellence, he was promoted to Associate Professor in 2010, a role he held for eight years. In 2018, he was elevated to the position of Professor in the School of Materials Science and Engineering. Over more than 15 years of service, he has been instrumental in shaping the department’s research direction, focusing on functional nanomaterials and energy applications. He has successfully mentored graduate students, led research initiatives, and published extensively. His multidisciplinary collaborations and expertise in high-entropy oxides, pigment design, and electrode materials have significantly contributed to the university’s reputation in materials science. Prof. He’s progression through academic ranks highlights his dedication to teaching, research, and scientific advancement in the field of advanced functional materials.

🏅Awards:

While specific awards and honors were not listed in the resume provided, Prof. He Xuanmeng’s academic journey and publication record strongly indicate a career marked by peer recognition and scholarly impact. His multiple first-author papers in top-tier journals like ACS Applied Nano Materials, Journal of Alloys and Compounds, and Journal of Colloid and Interface Science reflect high academic merit. He likely has received internal recognition for excellence in teaching and research within Shaanxi University of Science and Technology. Additionally, contributing to high-impact studies in areas like oxygen evolution reaction and Li-S battery applications suggests involvement in nationally or provincially funded research projects. Given his track record and position, he may also be serving as a reviewer or editorial board member for reputed journals in materials science. Further details of awards can be included upon availability to comprehensively highlight his career achievements.

🔬Research Focus:

Prof. He Xuanmeng’s research focuses on advanced functional materials with applications in energy conversion, storage, and optical properties. He specializes in the synthesis and design of high-entropy oxides, spinel-type nanostructures, and graphene-composite hybrids for electrocatalysts, particularly the oxygen evolution reaction (OER). His work also explores Li-S battery materials, utilizing hollow microspheres and reduced graphene oxide for sulfur hosting. Additionally, Prof. He has made significant contributions to the development of ceramic pigments with core-shell structures for enhanced coloration and NIR reflectance, offering sustainable alternatives with reduced heavy metal content. His interdisciplinary approach bridges material chemistry, solid-state physics, and energy applications, aiming to develop cost-effective and high-performance materials. His research outputs demonstrate innovation in structural control, electronic modulation, and multifunctionality in both energy and optical domains, aligning with global goals for sustainable energy and environmental-friendly technologies.

Publication Top Notes:

1. Enhanced Multienzyme‑like and Antibacterial Activity by Copper Atomically Dispersed into Molybdenum Disulfide for Accelerated Wound Healing

2. Carbon Cloth Supporting (CrMnFeCoCu)₃O₄ High‑Entropy Oxide as Electrocatalyst for Efficient Oxygen Evolution Reactions

Citations: 2

3. Highly Stable Hierarchical Core‑Shell Structure CuMn₀.₅Co₂O₄@CC with Self‑Regulating Electronic and Conductivity for Its Improved OER Performance

Citations: 5

4. Nanocrystalline (CrMnFeCoCu)₃O₄ High‑Entropy Oxide for Efficient Oxygen Evolution Reaction

Citations: 15

Prof. Reine NEHME | Analytical Chemistry | Best Researcher Award

Published on 05/05/202505/05/2025 by Chemistry Awards

Prof. Reine NEHME | Analytical Chemistry | Best Researcher Award

Prof. Reine NEHME, Analytical Chemistry , Head of analytical team at University of Orléans, ICOA UMR7311, France

Prof. Reine Nehmé is a renowned French scientist and Professor of Analytical Sciences at the University of Orléans, where she leads the “Analytical Strategies, Affinities and Bioactives” team at ICOA. With over 15 years of academic and research experience, she specializes in advanced separation techniques, bioanalysis, and microfluidics. She is deeply involved in both teaching and scientific governance—serving on multiple university and national scientific committees. Prof. Nehmé also contributes to scientific advancement as a supervisor of numerous Ph.D. and post-doctoral researchers and by coordinating key national research projects funded by ANR and regional bodies. Her prolific contributions to analytical chemistry are reflected in her numerous publications, particularly in the areas of enzymatic assays, capillary electrophoresis, and bioactive compound analysis. With a strong leadership role in Afsep and her involvement in high-level academic administration, she is recognized as a leading figure in analytical chemistry in France and Europe.

Professional Profile :

Summary of Suitability for Award:

Prof. Nehmé holds a Ph.D. in Analytical Chemistry from the University of Montpellier (2008) and an HDR (Accreditation toSupervise Research) from the University of Orléans (2016). Her academic background demonstrates deep expertise and a commitment to high-level scientific scholarship. As a professor and group leader at ICOA, University of Orléans, she leads the “Analytical Strategies, Affinities and Bioactives” team, driving impactful research in analytical sciences, especially in bioanalysis, separative techniques, capillary electrophoresis, microfluidics, and mass spectrometry. Prof. Nehmé is deputy treasurer and a management committee member of the Capillary Electrophoresis Group of Afsep. She holds leadership roles at her university and is actively engaged in curriculum design, evaluation panels, and scientific committees. Prof. Reine Nehmé exemplifies the ideal profile for a “Best Researcher Award”: a high-impact scientist, strategic research leader, dedicated educator, and committed scientific community member. Her strong publication record, funded projects, mentoring, and institutional service collectively highlight her as a trailblazer in analytical chemistry. She fully deserves recognition through such a prestigious award.

🎓Education:

Prof. Reine Nehmé earned her Ph.D. in Analytical Chemistry from the University of Montpellier in 2008, following her Master’s degree (Master 2) in the same field from the same institution in 2005. Demonstrating her continued academic excellence and expertise, she received her Habilitation to Supervise Research (HDR) from the University of Orléans in 2016. This qualification represents the highest academic degree in France and reflects her capacity to independently lead doctoral research and large-scale scientific projects. Her academic training laid a robust foundation in analytical methodologies, chromatographic techniques, and advanced spectroscopy. These qualifications have enabled her to contribute extensively to the development of innovative analytical tools and methods in environmental, biological, and pharmaceutical research. Her educational background not only established her scientific depth but also positioned her to take on leadership and mentoring roles across both academic and research platforms.

🏢Work Experience:

Prof. Nehmé began her academic journey at the University of Orléans in 2008 as a Temporary Teaching and Research Assistant (ATER). She advanced to Associate Professor in 2009 and was promoted to Professor in 2019. Over the years, she has held multiple leadership roles, including Head of the Analytical Chemistry Department and Coordinator of the Professional License program in Chemistry at IUT Chimie d’Orléans. She has been a member of the laboratory’s scientific council since 2017, and also serves on the Commission of Disciplinary Experts. As an active educator, she teaches a range of courses in analytical sciences including electrochemistry, chromatography, mass spectrometry, and microfluidics. In research, she has successfully supervised 6 Ph.D. students (2 ongoing) and multiple post-doctoral and master’s interns. Her contributions extend to national committees such as Afsep’s CE group, where she has served as Deputy Treasurer since 2021.

🏅Awards:

While specific awards are not explicitly listed, Prof. Reine Nehmé’s honors are evidenced by her numerous leadership and elected roles. She received the Habilitation to Supervise Research (HDR), a distinguished recognition in France for scholarly excellence. Her long-standing position on the scientific council of the ICOA laboratory and as a Commission Expert in disciplinary affairs at the University of Orléans speaks to her academic credibility. She was elected to the Management Committee of the CE group of Afsep in 2017 and appointed as Deputy Treasurer in 2021, underlining national recognition by her peers. She has consistently been entrusted with leadership in nationally funded research programs by ANR and regional agencies, confirming her scientific standing and project leadership ability. Her active role in supervising doctoral candidates and international collaborations further affirms her status as a respected figure in analytical sciences.

🔬Research Focus:

Prof. Nehmé’s research centers on analytical sciences, particularly in capillary electrophoresis, mass spectrometry, and microscale thermophoresis for studying molecular interactions. Her projects frequently explore bioanalysis, enzyme kinetics, and natural product evaluation. She leads or participates in numerous ANR-funded projects, including stapled peptide design, bioremediation via micromycetes, and enzyme behavior in crowded synthetic environments. A significant part of her work involves developing lab-on-a-chip (LoC) platforms for investigating target-ligand interactions at the single-cell level. She has also contributed to the miniaturization of enzymatic assays, passive sampling techniques for water analysis, and electrochemical sensors for environmental monitoring. Prof. Nehmé integrates separation sciences with biology and materials chemistry, bridging analytical method development with real-world biological and environmental challenges. Her interdisciplinary research fosters innovations in diagnostics, therapeutic monitoring, and ecological risk assessment, marking her as a pioneer in translating analytical chemistry into functional tools for bioactive discovery and environmental stewardship.

Publication Top Notes:

1. Using CE to Confirm the Activity of Fluorescent miRFP670-LIMK1 Protein Produced for MST Assays Directly in Cell Lysate

2. The Antimicrobial Activity of ETD151 Defensin is Dictated by the Presence of Glycosphingolipids in the Targeted Organisms

3. Glycolipid and Lipopeptide Biosurfactants: Structural Classes and Characterization—Rhamnolipids as a Model

4. Nutraceutical and Cosmetic Applications of Bioactive Compounds of Saffron (Crocus Sativus L.) Stigmas and Its By-products

5. Antioxidant and Anti-lipase Capacities from the Extracts Obtained from Two Invasive Plants: Ambrosia artemisiifolia and Solidago canadensis

6. Nutraceutical Capacities of Extracts from the Invasive Plants Ambrosia artemisiifolia and Solidago canadensis

7. Screening and Evaluation of Dermo-Cosmetic Activities of the Invasive Plant Species Polygonum cuspidatum

8. Biosurfactant-Producing Mucor Strains: Selection, Screening, and Chemical Characterization

9. Capillary Electrophoresis for Enzyme-Based Studies: Applications to Lipases and Kinases

10. Correction to: Reproducibility and Accuracy of Microscale Thermophoresis in the NanoTemper Monolith: A Multi Laboratory Benchmark Study

11. Design, Synthesis and SAR in 2,4,7-Trisubstituted Pyrido[3,2-d]Pyrimidine Series as Novel PI3K/mTOR Inhibitors

Dr. SHEKHAR RAPARTHI | Analytical Chemistry | Best Researcher Award

Published on 06/03/2025 by Chemistry Awards

Dr. SHEKHAR RAPARTHI | Analytical Chemistry | Best Researcher Award

Dr. SHEKHAR RAPARTHI | Analytical Chemistry | SCIENTIFIC OFFICER/H at NATIONAL CENTER FOR COMPOSITIONAL CHARACTERISATION OF MATERIALS, India

Shekhar Raparthi is a Scientific Officer / H at the National Centre for Compositional Characterisation of Materials (NCCCM), BARC, Hyderabad. With over three decades of expertise in analytical chemistry, he specializes in trace and ultra-trace characterization of metals, alloys, and high-purity materials. His pioneering work in glow discharge quadrupole mass spectrometry and electrolyte cathode discharge atomic emission spectrometry has significantly advanced compositional analysis. Holding a Ph.D. in Chemistry from JNTU, Hyderabad (2008), he has published extensively in reputed international journals and served as a peer reviewer. Currently leading the ultra-trace analysis section at NCCCM since 2023, he is an esteemed member of India Society for Mass Spectrometry (ISMAS) and Indian Society of Analytical Science (ISAS). His contributions to spectrometric techniques have practical applications in industrial and nuclear material characterization, making him a respected figure in analytical and green chemistry research.

Professional Profile :

Summary of Suitability for Award:

Dr. Shekhar Raparthi is a highly accomplished researcher specializing in trace and ultra-trace characterization of materials using mass and spectrometric techniques. With over 32 publications in high-impact journals, an h-index of 14, and 631 citations, he has made significant contributions to analytical chemistry. His pioneering research includes the development of infrared spectroscopic methods, glow discharge quadrupole mass spectrometry (GD-QMS), and novel electrolyte cathode discharge atomic emission spectrometric sources. These innovations have advanced material characterization techniques, benefiting the scientific community and industries dealing with high-purity materials, metals, and alloys. Dr. Raparthi’s extensive research contributions, innovative methodologies, and commitment to advancing analytical chemistry make him an ideal candidate for the “Best Researcher Award.” His work has been recognized through numerous international publications, and his role as the head of the ultra-trace analysis section at NCCCM, BARC, further solidifies his impact in the field.

🎓Education:

Shekhar Raparthi pursued his M.Sc. in Chemistry from the University of Hyderabad in 1993, where he developed a strong foundation in analytical chemistry. Following this, he underwent a one-year orientation program at BARC in 1994, gaining specialized training in advanced compositional characterization techniques. His academic journey culminated in a Ph.D. in Chemistry from Jawaharlal Nehru Technological University (JNTU), Hyderabad, in 2008. His doctoral research focused on the development of advanced mass spectrometric methodologies for the ultra-trace analysis of metals and high-purity materials. Over the years, he has continuously expanded his expertise through research, peer-reviewed publications, and participation in international analytical chemistry conferences. His educational background has been instrumental in his ability to innovate in trace and ultra-trace analysis techniques, making significant contributions to the field of analytical chemistry.

🏢Work Experience:

Shekhar Raparthi began his professional career in 1994 as a Scientific Officer/C at NCCCM, BARC, Hyderabad, specializing in the compositional characterization of various materials. Over the past 30 years, he has developed novel analytical methodologies for metals, alloys, and high-purity materials using mass spectrometric and spectroscopic techniques. His expertise includes glow discharge quadrupole mass spectrometry and electrolyte cathode discharge atomic emission spectrometry, contributing to advancements in trace and ultra-trace analysis. His work has been widely recognized, leading to 32 publications in reputed international journals. Since 2023, he has been heading the ultra-trace analysis section at NCCCM, overseeing critical research in compositional characterization. He is also an active peer reviewer for international journals. With extensive experience in spectrometric techniques, Shekhar Raparthi plays a key role in material characterization for nuclear, industrial, and high-tech applications.

🏅Awards:

Shekhar Raparthi has received several accolades for his significant contributions to analytical chemistry and mass spectrometry. His infrared spectroscopic method for oxygen quantification in TiCl₄ was widely appreciated in the titanium industry, earning him recognition in the field. His research on glow discharge quadrupole mass spectrometry and matrix volatilization methodologies for ultra-trace characterization of high-purity germanium has been published in top international journals, including Analytical Chemistry. His expertise in trace element analysis has made him a valuable asset to BARC and the Indian scientific community. As a distinguished member of ISMAS and ISAS, he actively contributes to the advancement of analytical sciences in India. While he has not listed specific awards, his impactful research, numerous peer-reviewed publications, and leadership in ultra-trace analysis solidify his reputation as a leading scientist in compositional characterization.

🔬Research Focus:

Shekhar Raparthi’s research revolves around trace and ultra-trace characterization of materials using advanced mass spectrometric and spectroscopic techniques. His work plays a crucial role in ensuring the purity and compositional accuracy of metals, alloys, and high-purity materials. He has pioneered glow discharge quadrupole mass spectrometry (GD-QMS) for detecting impurities at ultra-trace levels. Additionally, his development of matrix volatilization methodologies has enhanced the characterization of high-purity germanium, a material critical in semiconductor and radiation detection applications. His innovations in electrolyte cathode discharge atomic emission spectrometry (ECD-AES) have improved the sensitivity and precision of trace element analysis. His research significantly contributes to nuclear, industrial, and advanced material applications, ensuring high accuracy in material compositional studies. As the head of the ultra-trace analysis section at NCCCM, his expertise in **

Publication Top Notes:

In-situ Ti–Ir and ammonium thiocyanate modifiers for improvement of sensitivity of Sc to sub parts per billion levels and its accurate quantification in coal fly ash and red mud by GFAAS

Hydrophobicity induced graphene oxide based dispersive micro solid phase extraction of strontium from seawater and groundwater prior to GFAAS determination

Direct determination of ultra-trace sodium in reactor secondary coolant waters and other waters by electrolyte cathode discharge atomic emission spectrometry

Citation Count: 1

Dr. Minitha R | Inorganic Chemistry | Best Researcher Award

Published on 28/02/202528/02/2025 by Chemistry Awards

Dr. Minitha R | Inorganic Chemistry | Best Researcher Award

Dr. Minitha R ,Inorganic Chemistry, GOVERNMENT POLYTECHNIC COLLEGE, EZHUKONE, KOLLAM, KERALA, India

Dr. Minitha R. is an Associate Professor with over 14 years of teaching and 15 years of research experience in chemistry. She holds an M.Sc., M.Phil., NET, UGC-JRF, and Ph.D. Her expertise spans organic, coordination, supramolecular, and inorganic chemistry. She has served in key academic roles, including NSS Programme Officer and Chief Superintendent of Examinations. A dedicated researcher, Dr. Minitha has guided students and undertaken projects like developing a chemosensor for metal ion detection. She has organized multiple national seminars and actively participates in international conferences and workshops.

Professional Profile :

Summary of Suitability for Award:

Dr. Minitha R., an accomplished Associate Professor with 15 years of research experience, has significantly contributed to the field of Inorganic Chemistry, particularly in Coordination Chemistry, Supramolecular Chemistry, and Organic Chemistry. With a strong publication record, she has authored several impactful research papers in highly reputed journals, covering diverse topics such as metal complexes, chemosensors, molecular structures, and spectroscopic studies. Dr. Minitha R. is an exceptional candidate for the “Best Researcher Award,” given her proven research excellence, scholarly contributions, and leadership in the scientific community. Her extensive work in metal-based coordination complexes, chemosensors, and supramolecular chemistry, along with her active role in mentoring and academic leadership, makes her a highly deserving nominee.

🎓Education:

Dr. Minitha R. holds a Ph.D. in Chemistry and has qualified for the NET and UGC-JRF. She completed her M.Sc. and M.Phil. in Chemistry, demonstrating academic excellence throughout. Her education provided her with a strong foundation in inorganic chemistry, particularly in complex synthesis, supramolecular interactions, and chemosensing applications. Her academic journey was driven by a passion for molecular recognition, ligand design, and structural chemistry. She has actively participated in seminars and workshops to enhance her knowledge and keep up with evolving research trends.

🏢Work Experience:

With 14 years of teaching and 15 years of research experience, Dr. Minitha R. has handled Organic, Inorganic, and Physical Chemistry courses. She has successfully guided research scholars, fostering innovations in supramolecular and coordination chemistry. Apart from teaching, she has played key roles as an NSS Programme Officer, Nature Club Coordinator, Chief Superintendent of Examinations, and Young Innovators Programme Facilitator. She has also organized national seminars and workshops on emerging trends in chemistry, enhancing academic collaboration and knowledge dissemination.

🏅Awards:

Dr. Minitha R. has been recognized for her outstanding contributions to academia and research. She served as the NSS Programme Officer (2021-2022), demonstrating her commitment to student welfare and community service. As the Nature Club Coordinator (2019-2020), she played a crucial role in promoting environmental awareness. Her leadership extended to being the Chief Superintendent of Examinations (2020-2021), ensuring smooth academic assessments. Additionally, she facilitated the Young Innovators Programme (2019), fostering creativity and scientific curiosity among students. Her research endeavors were supported by a KSCSTE-funded M.Sc. student project, where she developed a chemosensor for metal ion detection. These roles reflect her dedication to education, research, and institutional development.

🔬Research Focus:

Dr. Minitha R. specializes in Inorganic Chemistry, with a keen interest in Organic Chemistry, Coordination Chemistry, and Supramolecular Chemistry. Her research explores the synthesis and characterization of novel metal complexes, particularly those with biological and chemosensory applications. She has contributed significantly to the development of pyrazolylhydrazone-based metal complexes, dioxo molybdenum(VI) compounds, and benzothiazolium salts. Her work also extends to fluorescent hydrazones and ruthenium(II) complexes, emphasizing their structural and functional properties. Additionally, her studies on five-coordinate Zn(II) complexes highlight their potential in nonlinear optical applications. Through her research, she aims to bridge the gap between fundamental chemistry and real-world applications, particularly in materials science, catalysis, and medicinal chemistry.

Publication Top Notes:

Formation of dicyano ruthenium(II) complex mediated by triethylamine via deprotonation of hydrazonochroman-2,4-dione

Synthesis, spectroscopic and biological studies of metal complexes of an ONO donor pyrazolylhydrazone – Crystal structure of ligand and Co(II) complex

Studies of some dioxo molybdenum(VI) complexes of a polydentate ligand

One pot synthesis of 1–(3–methyl–4H–benzo[1,4]thiazin–2–yl)-ethanone and its antimicrobial properties

Synthesis, spectral, and magnetic studies of benzothiazolium tetrachlorocuprate salts: crystal structure and semiconducting behavior of bis[2-(4-methoxyphenyl)benzothiazolium] tetrachlorocuprate(II)

Fluorescent coumarin-based hydrazone: Synthesis, crystal structure, and spectroscopic studies

FT-IR, FT-Raman and computational study of 1H-2,2-dimethyl-3H-phenothiazin-4[10H]-one

Synthesis, crystal structure, spectral analysis, and NLO studies of five-coordinate Zn(II) complexes of hydrazochromandione

Chemosensing study of 1,4-Benzothiazine generated from acetylacetone

Dr. Yuntian Xiao | Coordination Chemistry | Best Researcher Award

Published on 25/01/202525/01/2025 by Chemistry Awards

Dr. Yuntian Xiao | Coordination Chemistry | Best Researcher Award

Dr. Yuntian Xiao , Tianjin University , China

Yuntian Xiao is a Ph.D. candidate at Tianjin University’s School of Chemical Engineering and Technology, specializing in chemical engineering with a focus on crystallization technology. Guided by Professor Qiuxiang Yin, Xiao’s research emphasizes sustainable pesticide delivery, environmental chemistry, and molecular simulation. His academic journey began with a Bachelor’s degree in Chemical Engineering from Tianjin University of Science and Technology, followed by a Master’s degree in Chemical Engineering at Tianjin University. He has contributed significantly to the fields of cocrystal engineering and agrochemical sustainability, earning numerous accolades such as the National Scholarship and the Tianjin University Major Awards. Xiao has published extensively in top journals like Chem. Eng. J. and Green Chem., showcasing innovations in crystallization and molecular assembly. Proficient in advanced lab techniques and computational tools, Xiao actively engages in research that bridges science and industry, aiming to develop eco-friendly solutions in agriculture and beyond.

Professional Profile

Summary of Suitability for Award:

Yuntian Xiao demonstrates exceptional qualifications that align with the criteria for the “Best Researcher Awards.” As a Ph.D. candidate specializing in chemical engineering at Tianjin University, Xiao has made significant contributions to sustainable agriculture and environmental chemistry through cocrystal engineering and molecular simulation. With 15 high-impact publications in prestigious journals such as Chem. Eng. J. and ACS Appl. Mater. Interfaces, Xiao has advanced innovations in agrochemical delivery systems and crystallization processes. His interdisciplinary research addresses global challenges like environmental sustainability and efficient pesticide usage. Based on his impactful research contributions, proven academic excellence, and innovative approaches to addressing critical environmental issues, Yuntian Xiao is a highly suitable candidate for the “Best Researcher Awards.” His dedication to sustainability and interdisciplinary problem-solving exemplifies the qualities expected of a leading researcher, making him a deserving nominee.

🎓Education:

Yuntian Xiao is pursuing a Ph.D. in Chemical Engineering at Tianjin University’s School of Chemical Engineering and Technology, where he specializes in crystallization technology under the guidance of Professor Qiuxiang Yin. His doctoral research focuses on sustainable agrochemical solutions through cocrystal engineering. Xiao earned his Master’s degree in Chemical Engineering from Tianjin University, working at the National Engineering Research Center of Industry Crystallization Technology under Professor Chuang Xie . During his Master’s program, he deepened his understanding of crystallization processes and molecular simulations. He holds a Bachelor’s degree in Chemical Engineering and Technology from Tianjin University of Science and Technology, where he excelled academically, achieving a GPA of 3.92. His comprehensive curriculum covered subjects like Chemical Thermodynamics, Reaction Engineering, and Phase Diagrams, building a solid foundation in chemical engineering principles. Xiao’s academic journey reflects a commitment to excellence and a passion for advancing sustainable chemical engineering solutions.

🏢Work Experience:

Yuntian Xiao has diverse research experience in crystallization technology and sustainable chemical engineering solutions. His doctoral research includes developing cocrystal engineering strategies for agrochemical delivery, focusing on herbicides with sustained release, reduced leaching, and enhanced efficiency. He has employed molecular simulations to understand these processes at a mechanistic level. Xiao has also contributed to interdisciplinary projects, including the melt crystallization of buty nediol, reactive crystallization of sodium bicarbonate, and cooling crystallization of creatine phosphate sodium. His main responsibilities involved optimizing experimental methods, modeling processes, and analyzing factors influencing industrial crystallization outcomes. Proficient in techniques like PXRD, TGA/DSC, SEM, Raman, and HPLC, Xiao also has advanced computational skills, including MATLAB and Materials Studio. His expertise combines experimental techniques with computational modeling, allowing him to bridge fundamental research with industrial applications. Xiao’s contributions highlight his ability to address real-world challenges in chemical engineering effectively.

🏅Awards:

Yuntian Xiao has received numerous awards recognizing his academic excellence and research achievements. As a Ph.D. student, he earned the Ph.D. Student Major Award (2021–2022) from Tianjin University for his innovative research in chemical engineering. During his Master’s program, he consistently achieved the Master Student Major Awards (2018–2021) and a Minor Award (2019–2020) for exceptional academic performance and contributions to crystallization research. His undergraduate achievements include the National Scholarship (2017–2018), a prestigious honor awarded for outstanding academic performance and extracurricular involvement. Additionally, Xiao received the Student Major Awards (2015–2018) from Tianjin University of Science and Technology and the Merit Student Award (2015–2016) from Hebei University of Technology. These accolades reflect Xiao’s dedication to excellence and his impactful contributions to chemical engineering research, solidifying his reputation as a top-performing researcher and scholar.

🔬Research Focus:

Yuntian Xiao’s research focuses on sustainable chemical engineering solutions, particularly through cocrystal engineering. His work addresses global challenges in agriculture and environmental chemistry by designing eco-friendly agrochemical delivery systems. By developing novel cocrystals, Xiao aims to achieve sustained-release pesticides and herbicides with reduced environmental leaching and enhanced efficacy. His expertise extends to mechanochemistry and molecular simulations, employing advanced computational tools to predict and optimize crystallization mechanisms. Xiao has also explored solid-state chemistry to enhance the lifecycle efficiency of agrochemicals. His interdisciplinary projects include studies on the crystallization of buty nediol, sodium bicarbonate, and creatine phosphate sodium, demonstrating his ability to translate research into industrial applications. Xiao’s research integrates experimental techniques like PXRD, Raman spectroscopy, and HPLC with computational modeling, ensuring a comprehensive understanding of crystallization processes. His innovative work in sustainable chemical engineering highlights his commitment to addressing pressing environmental and agricultural challenges.

Publication Top Notes:

1. Title: Cocrystals of propylthiouracil and nutraceuticals toward sustained-release: Design, structure analysis, and solid-state characterization
Authors: Y Xiao, L Zhou, H Hao, Y Bao, Q Yin, C Xie
Journal: Crystal Growth & Design
Citations: 47
Year: 2021

2. Title: New salts and cocrystals of pymetrozine with improvements on solubility and humidity stability: Experimental and theoretical study
Authors: D Wu, J Li, Y Xiao, X Ji, C Li, B Zhang, B Hou, L Zhou, C Xie, J Gong, …
Journal: Crystal Growth & Design
Citations: 46
Year: 2021

3. Title: Mechanochemical synthesis of cocrystal: From mechanism to application
Authors: Y Xiao, C Wu, X Hu, K Chen, L Qi, P Cui, L Zhou, Q Yin
Journal: Crystal Growth & Design
Citations: 29
Year: 2023

4. Title: Cocrystal engineering strategy for sustained release and leaching reduction of herbicides: a case study of metamitron
Authors: Y Xiao, C Wu, L Zhou, Q Yin, J Yang
Journal: Green Chemistry
Citations: 24
Year: 2022

5. Title: Pursuing Green and Efficient Agriculture from Molecular Assembly: A Review of Solid-State Forms on Agrochemicals
Authors: Y Xiao, C Wu, P Cui, L Zhou, Q Yin
Journal: Journal of Agricultural and Food Chemistry
Citations: 21
Year: 2023

6. Title: Analysis of solid-liquid equilibrium behavior of highly water-soluble beet herbicide metamitron in thirteen pure solvents using experiments and molecular simulations
Authors: Y Xiao, C Wu, C Zhao, L Qi, Y Bao, L Zhou, Q Yin
Journal: Journal of Molecular Liquids
Citations: 18
Year: 2022

7. Title: Structure analysis and insight into hydrogen bond and van der Waals interactions of etoricoxib cocrystals and cocrystal solvate
Authors: Y Wang, L Wang, F Zhang, N Wang, Y Gao, Y Xiao, Z Wang, Y Bao
Journal: Journal of Molecular Structure
Citations: 16
Year: 2022

8. Title: Comparison Study of KBH4 Spherical Agglomerates Prepared in Different Antisolvents: Mechanisms and Properties
Authors: Z Zhang, L Wang, P Zhao, Y Xiao, H Hao, Y Bao
Journal: Industrial & Engineering Chemistry Research
Citations: 13
Year: 2021

9. Title: Intermolecular interactions and solubility behavior of multicomponent crystal forms of 2,4-D: Design, structure analysis, and solid-state characterization
Authors: L Fang, Y Xiao, C Zhang, Z Gao, S Wu, J Gong, S Rohani
Journal: CrystEngComm
Citations: 13
Year: 2021

10. Title: Enhancing adsorption capacity and herbicidal efficacy of 2,4-D through supramolecular self-assembly: insights from cocrystal engineering to solution chemistry
Authors: Y Xiao, C Wu, P Cui, X Luo, L Zhou, Q Yin
Journal: Chemical Engineering Journal
Citations: 12
Year: 2023

Assoc. Prof. Dr. Paresh Patel | Organic Chemistry | Best Researcher Award

Published on 20/01/202520/01/2025 by Chemistry Awards

Assoc. Prof. Dr. Paresh Patel | Organic Chemistry | Best Researcher Award

Assoc. Prof. Dr. Paresh Patel , Uka Tarsadia University , India

Dr. Paresh N. Patel, is an Indian chemist and academic leader, currently serving as the I/c Director of the Tarsadia Institute of Chemical Science, Uka Tarsadia University, Gujarat. With over 12 years of experience in teaching, research, and administration, Dr. Patel has significantly contributed to organic synthesis, nanotechnology, and bio-sensor development. He has authored 42 peer-reviewed publications, holds five patents, and supervised numerous MSc and PhD scholars. As an editor and reviewer for reputed journals, he actively engages in the scientific community. Dr. Patel has been instrumental in securing several high-value research grants, collaborating with academia and industry to advance chemical sciences.

Professional Profile

Summary of Suitability for Award:

Dr. Paresh N. Patel is an accomplished researcher with a prolific career spanning over a decade in chemical sciences. His expertise lies in organic synthesis, nanotechnology, and biosensor development, supported by 42 international publications, five patents, and significant research grants totaling over ₹3 crore. He has successfully led and collaborated on high-impact projects funded by prestigious organizations such as DST, GUJCOST, GSBTM, and DBT, demonstrating his ability to secure competitive funding and deliver innovative outcomes. Dr. Paresh N. Patel’s exceptional achievements, diverse research portfolio, and impactful contributions make him highly suitable for the “Best Researcher Award.” His innovative work has advanced the frontiers of chemical sciences and demonstrated practical relevance, aligning with the award’s objective of recognizing excellence in research.

🎓Education:

Dr. Paresh N. Patel completed his PhD in Organic Synthesis from Sardar Patel University in 2013, after earning an MSc in Organic Chemistry (2009) and a BSc in Chemistry (2007) from the same institution. His academic training provided a robust foundation for his research in asymmetric synthesis, nanomaterials, and renewable resources. During his doctoral studies, he specialized in single-crystal X-ray diffraction and advanced organic methodologies. He also received an Institute Postdoctoral Fellowship at IIT Madras, where he further honed his expertise in heterocyclic compound synthesis. Over his academic journey, Dr. Patel has consistently demonstrated academic excellence, evident in his comprehensive research output and accolades for innovation.

🏢Work Experience:

Dr. Paresh N. Patel has an illustrious career spanning academia and research. He has served as an I/c Director at Tarsadia Institute of Chemical Science since 2019 and was promoted to Associate Professor in 2024. Previously, he was an Assistant Professor (2016–2024) at Uka Tarsadia University and a Postdoctoral Fellow at IIT Madras (2013–2016), contributing to teaching and research in organic chemistry. He has also worked as a Fellow at NIF-Ahmedabad and an SRF at Sardar Patel University. His roles have encompassed teaching spectroscopy, nanotechnology, and stereochemistry, as well as guiding MSc, PhD, and Postdoctoral scholars. Dr. Patel’s leadership in organizing scientific events and workshops reflects his dedication to fostering innovation and skill development in chemical sciences.

🏅Awards:

Dr. Paresh N. Patel has earned numerous accolades for his contributions to chemical research. He was awarded the prestigious DST Inspire Grant (₹24 lakh) and several significant project grants, including ₹30 lakh from GUJCOST and ₹32 lakh from GSBTM. He also received an International Travel Grant from DBT to present his research in the USA and was a recipient of a ₹10 lakh ICSR-IIT Madras project fund. His excellence in academia has been recognized through various seed grants from Uka Tarsadia University and industrial-funded research projects. Additionally, his proposals under DST-SYST and DST-TDP are under consideration, with a substantial ₹3 crore DST-FIST project in preparation. These accolades highlight Dr. Patel’s commitment to advancing scientific knowledge and fostering impactful collaborations.

🔬Research Focus:

Dr. Paresh N. Patel’s research centers on innovative applications of organic chemistry and nanotechnology. His projects include developing nano-scale organic biosensors (DST-SERB) and synthesizing gold nanoparticles from renewable resources for organic synthesis (GSBTM). He also explores asymmetric synthesis using biocatalysts and collaborates with industry to develop biotechnology for hydrogen and ethanol production. His research portfolio includes several high-value grants, such as DST Inspire, GUJCOST, and GSBTM. Dr. Patel’s interdisciplinary approach integrates materials science, biotechnology, and organic chemistry, aiming to address environmental and industrial challenges. His work not only advances theoretical understanding but also offers practical solutions in chemical and biosensor technology.

Publication Top Notes:

Title: Study of lawsone and its modified disperse dyes derived by triple cascade reaction: dyeing performance on nylon and polyester fabrics
Authors: Patel, N.C., Desai, D.H., Patel, P.N.
Year: 2024
Citations: 2

Title: Selective detection of azelnidipine in pharmaceuticals via carbon dot mediated spectrofluorimetric method: A green approach
Authors: Lodha, S.R., Gore, A.H., Merchant, J.G., Shah, S.A., Shah, D.R.
Year: 2024
Citations: 1

Title: Benzothiophene based semi-bis-chalcone as a photo-luminescent chemosensor with real-time hydrazine sensing and DFT studies
Authors: Oza, N.H., Kasundra, D., Deshmukh, A.G., Boddula, R., Patel, P.N.
Year: 2024
Citations: 0

Title: A lawsone based novel disperse dyes with DHPMs scaffold: dyeing studies on nylon and polyester fabric
Authors: Patel, N.C., Talati, K.S., Patel, P.N.
Year: 2024
Citations: 0

Title: Surface functionalized graphene oxide integrated 9,9-diethyl-9H-fluoren-2-amine monohybrid nanostructure: Synthesis, physicochemical, thermal and theoretical approach towards optoelectronics
Authors: Borane, N., Boddula, R., Odedara, N., Jirimali, H., Patel, P.N.
Year: 2024
Citations: 1

Title: Fungus reinforced sustainable gold nanoparticles: An efficient heterogeneous catalyst for reduction of nitro aliphatic, aromatic and heterocyclic scaffolds
Authors: Deshmukh, A.G., Rathod, H.B., Patel, P.N.
Year: 2023
Citations: 1

Title: Green and sustainable bio-synthesis of gold nanoparticles using Aspergillus Trinidadensis VM ST01: Heterogeneous catalyst for nitro reduction in water
Authors: Deshmukh, A.G., Mistry, V., Sharma, A., Patel, P.N.
Year: 2023
Citations: 3

Title: Design and synthesis of chalcone mediated novel pyrazoline scaffolds: Discovery of benzothiophene comprising antimicrobial inhibitors
Authors: Tandel, S.N., Kasundra, D.V., Patel, P.N.
Year: 2023
Citations: 2

Title: Studies of novel benzofuran based chalcone scaffolds: A dual spectroscopic approach as selective hydrazine sensor
Authors: Tandel, S.N., Deshmukh, A.G., Rana, B.U., Patel, P.N.
Year: 2023
Citations: 4

Title: Novel chalcone scaffolds of benzothiophene as an efficient real-time hydrazine sensor: Synthesis and single crystal XRD studies
Authors: Tandel, S.N., Mistry, P., Patel, P.N.
Year: 2023
Citations: 4

Assist. Prof. Dr. Mohammad Taghi Nazeri | Organic Chemistry | Best Researcher Award

Published on 16/12/202416/12/2024 by Chemistry Awards

Assist. Prof. Dr. Mohammad Taghi Nazeri | Organic Chemistry | Best Researcher Award

Assist. Prof. Dr. Mohammad Taghi Nazeri , Shahid Beheshti University, Iran

Dr. Mohammad Taghi Nazeri, born in Qazvin, Iran, is a distinguished faculty member at Shahid Beheshti University, Tehran. He earned his Ph.D. under the mentorship of Prof. Ahmad Shaabani, followed by a postdoctoral fellowship in the same research group. With a robust academic portfolio, he focuses on the synthesis of bioactive compounds, multicomponent reactions, and material functionalization. Dr. Nazeri has authored over 40 impactful papers and reviews, showcasing his expertise in organic chemistry. His innovative approaches to green chemistry and sustainable synthesis have garnered recognition in the scientific community, contributing significantly to advancements in pseudopeptidic and heterocyclic chemistry.

Professional Profile:

Summary of Suitability for Award:

Dr. Mohammad Taghi Nazeri exemplifies the qualities of an outstanding researcher, making him a strong candidate for the “Best Researcher Awards.” With a focus on sustainable synthesis and green chemistry, Dr. Nazeri has significantly advanced the field of organic chemistry, particularly in isocyanide-based multicomponent reactions and pseudopeptidic compound synthesis. His innovative methodologies emphasize eco-friendly processes, reflecting a commitment to addressing global sustainability challenges.Dr. Nazeri’s exceptional research achievements, innovative methodologies, and contributions to advancing sustainable chemistry establish him as a deserving recipient of the “Best Researcher Awards.” His work not only enriches the academic community but also addresses pressing environmental and societal challenges, making him an exemplary model of scientific excellence and impactful research.

🎓Education:

Dr. Nazeri completed his M.Sc. in organic chemistry at Tehran University, where he cultivated his foundational expertise in chemical sciences. He pursued his Ph.D. at Shahid Beheshti University, specializing in advanced multicomponent reactions and pseudopeptidic compounds under the guidance of Prof. Ahmad Shaabani. His doctoral work revolved around designing efficient, sustainable synthetic pathways for bioactive heterocycles. Building upon this, Dr. Nazeri undertook a postdoctoral fellowship at Shahid Beheshti University, further refining his expertise in green chemistry and material functionalization. His educational journey reflects a commitment to developing innovative solutions for complex synthetic challenges, integrating sustainability and efficiency.

🏢Work Experience:

Dr. Nazeri began his academic career with extensive research in isocyanide-based multicomponent reactions, focusing on the synthesis of heterocyclic compounds and pseudopeptides. After earning his Ph.D., he joined Prof. Ahmad Shaabani’s research group for postdoctoral studies, emphasizing sustainable chemistry. Since 2022, he has been a faculty member at Shahid Beheshti University, where he teaches, mentors students, and leads groundbreaking research projects. His contributions include developing eco-friendly synthetic methodologies and functionalizing materials for applications in green catalysis and CO₂ fixation. With over 40 publications, Dr. Nazeri’s experience showcases his innovative approach to organic chemistry and materials science.

🏅Awards:

Dr. Nazeri has received widespread recognition for his contributions to organic chemistry. His awards highlight excellence in green chemistry and multicomponent reactions, showcasing his innovative approach to sustainable synthesis. His postdoctoral fellowship, under the esteemed guidance of Prof. Ahmad Shaabani, reflects his exceptional research capabilities. Dr. Nazeri’s work has earned accolades from the scientific community, underscoring his commitment to advancing eco-friendly methodologies. His role as a faculty member at Shahid Beheshti University further attests to his impact in shaping the next generation of researchers in organic chemistry.

🔬Research Focus:

Dr. Nazeri’s research interests include the design and synthesis of bioactive compounds through novel multicomponent reactions, with a particular emphasis on pseudopeptidic and heterocyclic scaffolds. He explores sustainable methods for the functionalization and modification of materials, employing green chemistry principles. His work focuses on isocyanide-based reactions in water, aiming to create efficient synthetic routes for medicinally relevant compounds. Dr. Nazeri also investigates applications in CO₂ fixation and antibacterial nanocomposites, contributing to eco-friendly advancements in materials science. His research bridges organic synthesis, green catalysis, and material functionalization for sustainable development.

Publication Top Notes:

5-Amino-pyrazoles: potent reagents in organic and medicinal synthesis

Authors: A. Shaabani, M.T. Nazeri, R. Afshari

Citations: 78

Year: 2019

Multicomponent reactions as a potent tool for the synthesis of benzodiazepines

Authors: H. Farhid, V. Khodkari, M.T. Nazeri, S. Javanbakht, A. Shaabani

Citations: 67

Year: 2021

Cyclic imines in Ugi and Ugi-type reactions

Authors: M.T. Nazeri, H. Farhid, R. Mohammadian, A. Shaabani

Citations: 57

Year: 2020

Deep eutectic solvent as a highly efficient reaction media for the one-pot synthesis of benzo-fused seven-membered heterocycles

Authors: A. Shaabani, S.E. Hooshmand, M.T. Nazeri, R. Afshari, S. Ghasemi

Citations: 46

Year: 2016

Green one-pot synthesis of multicomponent-crosslinked carboxymethyl cellulose as a safe carrier for the gentamicin oral delivery

Authors: S. Javanbakht, M.T. Nazeri, A. Shaabani, M. Ghorbani

Citations: 40

Year: 2020

5-aminopyrazole-conjugated gelatin hydrogel: A controlled 5-fluorouracil delivery system for rectal administration

Authors: M.T. Nazeri, S. Javanbakht, A. Shaabani, M. Ghorbani

Citations: 38

Year: 2020

An efficient one-pot, regio-and stereoselective synthesis of novel pentacyclic-fused pyrano[3,2,c] chromenone or quinolinone benzosultone derivatives in water

Authors: M. Ghandi, M.T. Nazeri, M. Kubicki

Citations: 35

Year: 2013

Multi‐component reaction‐functionalized chitosan complexed with copper nanoparticles: An efficient catalyst toward A3 coupling and click reactions in water

Authors: A. Shaabani, M. Shadi, R. Mohammadian, S. Javanbakht, M.T. Nazeri

Citations: 34

Year: 2019

Isocyanide-based multicomponent reactions in water: Advanced green tools for the synthesis of heterocyclic compounds

Authors: T. Nasiriani, S. Javanbakht, M.T. Nazeri, H. Farhid, V. Khodkari, A. Shaabani

Citations: 33

Year: 2022

Synthesis of polysubstituted pyrroles via isocyanide-based multicomponent reactions as an efficient synthesis tool

Authors: M.T. Nazeri, A. Shaabani

Citations: 32

Year: 2021

Dr. Shu Tian | Surface Chemistry Award | Best Researcher Award

Published on 07/11/202409/11/2024 by Chemistry Awards

Dr. Shu Tian | Surface Chemistry Award | Best Researcher Award

Dr. Shu Tian, Ningbo Institute of Materials Technology & Engineering, CAS , China

Shu Tian is an Assistant Professor at Ningbo Institute of Materials Technology & Engineering, CAS. he holds a strong background in materials science and engineering, having earned his bachelor’s degree from Northeastern University and completed a joint master’s program between Shanghai University and Ningbo Institute. His Ph.D. in Chemical Engineering was awarded by Tianjin University. Dr. Tian’s research focuses on developing environmentally friendly, long-lasting antifouling materials, with a particular interest in organic and functional coatings. he has contributed to various advanced protective coatings and collaborates with several prestigious research institutions. Dr. Tian has published numerous research papers and holds multiple patents for his innovations in surface chemistry and materials science.

Professional Profile: