Prof. Zhilong Cao | Green Chemistry | Best Researcher Award

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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 :         

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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

 

 

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

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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 :         

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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

 

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

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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 :         

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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

 

Dr. Ji-Wei Ren | Organic Chemistry | Best Researcher Award

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Dr. Ji-Wei Ren | Organic Chemistry | Best Researcher Award

Dr. Ji-Wei Ren, Organic Chemistry, Taishan University , China 

Dr. Ji-Wei Ren is a Lecturer in the College of Chemistry and Chemical Engineering at Taishan University, China. He earned his Ph.D. in Chemical Engineering and Technology from Central South University, where he developed expertise in visible light catalysis, organo catalysis, and green synthesis. Dr. Ren has previously served as a Research Associate at Ningbo University’s Institute of Drug Discovery Technology, engaging in interdisciplinary research on biomimetic reducing agents and chiral resolution. With a strong foundation in heterocyclic construction and peptide synthesis, his work integrates sustainable and biomimetic chemistry with modern synthetic methodologies. Dr. Ren has published multiple high-impact research articles in leading journals such as Org. Lett., J. Org. Chem., and Org. Chem. Front.. His research is characterized by innovation, precision, and relevance to both pharmaceutical and materials chemistry. He actively contributes to academic platforms like ORCID and collaborates with renowned scientists across China.

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Summary of Suitability for Award:

Dr. Ji-Wei Ren exemplifies the qualities of an outstanding researcher through his pioneering work in the field of organic synthesis, particularly in visible light catalysis, organocatalysis, and green chemistry. He has published over 11 peer-reviewed articles in top-tier journals such as Organic Chemistry Frontiers, Journal of Organic Chemistry, Organic Letters, and Chemistry – A European Journal. Several of his works have been highlighted by Synfacts, showcasing their novelty and scientific impact. His innovative contributions include the development of racemization-free synthesis protocols, the application of biomimetic reducing agents, and the design of sustainable methodologies for heterocycle and peptide construction. He brings a fresh perspective to traditional synthetic methods by incorporating visible light and bio-inspired techniques, addressing both the efficiency and environmental responsibility in chemical synthesis. Dr. Ji-Wei Ren is highly suitable for the “Best Researcher Award”. His significant scientific output, innovation in research, recognition by the international community, and dedication to sustainable chemistry clearly distinguish him as a leading researcher in his field. His commitment to impactful and environmentally conscious science makes him not only an excellent candidate but also a role model for emerging researchers. This award would be a deserving recognition of his ongoing contributions to the scientific world.

🎓Education:

Dr. Ji-Wei Ren completed both his undergraduate and doctoral studies at Central South University. He earned his Bachelor of Engineering in Pharmaceutical Engineering in June 2013, where he gained foundational knowledge in pharmaceutical chemistry, drug design, and synthesis. Subsequently, he pursued a Doctorate in Chemical Engineering and Technology (2013–2019) at the same university. His Ph.D. research focused on innovative synthetic strategies using organo catalysis and visible-light-driven methodologies for the construction of functional molecules, especially in the development of peptide and heterocyclic compounds. Under the mentorship of distinguished faculty, he honed his skills in reaction design, stereoselective synthesis, and catalysis. His academic training also included a deep understanding of biomimetic reactions, green synthesis, and photochemical transformations. This robust educational background laid the groundwork for his interdisciplinary research efforts, enabling him to contribute significantly to the fields of sustainable and asymmetric synthesis.

🏢Work Experience:

Dr. Ji-Wei Ren began his academic career as a Research Associate (2019–2022) at the Institute of Drug Discovery Technology, Ningbo University, where he focused on peptide synthesis and the development of bio-inspired reducing agents. His role involved collaborative projects in pharmaceutical chemistry and catalysis, contributing to the advancement of efficient and eco-friendly synthetic methods. In August 2022, he joined Taishan University as a Lecturer in the College of Chemistry and Chemical Engineering. At Taishan University, Dr. Ren continues his research in visible light catalysis and organocatalytic transformations, guiding students in advanced organic chemistry techniques and experimental methodologies. He has also contributed to curriculum development and interdisciplinary research programs. His teaching and research philosophy is rooted in innovation, sustainability, and student engagement. With over a decade of academic training and research, Dr. Ren combines a strong theoretical foundation with hands-on experience in both industrial and academic labs.

🏅Awards: 

Dr. Ji-Wei Ren has been consistently recognized for his impactful contributions to organic chemistry and green synthesis methodologies. His 2021 publication in Organic Letters was highlighted by Synfacts in 2022 for its innovative racemization-free synthesis approach, underlining the originality and practical importance of his work. Additionally, his earlier work in The Journal of Organic Chemistry (2017) was also spotlighted in Synfacts, reflecting his ongoing excellence in visible light-mediated and organocatalytic transformations. During his doctoral studies at Central South University, he was honored with multiple academic excellence awards for his outstanding research and scholarly dedication. His publications in top-tier journals like Organic Chemistry Frontiers, Organic & Biomolecular Chemistry, and Chemistry – A European Journal have further established him as a rising expert in his field. These recognitions underscore both the scientific value and the practical applicability of his research in modern organic synthesis.

🔬Research Focus:

Dr. Ji-Wei Ren’s research is centered on the development of innovative, environmentally friendly methodologies in organic synthesis. His primary interests lie in visible light catalysis, where he designs photochemical processes to enable mild and selective transformations. He is also deeply involved in chiral resolution and organocatalysis, with a particular emphasis on enantioselective reactions that are crucial for pharmaceutical synthesis. A significant part of his work involves constructing complex heterocyclic compounds, often using biomimetic and green synthesis strategies to reduce environmental impact. Dr. Ren has pioneered the use of L-amino acid esters as biomimetic reducing agents and introduced new deoxygenation and amidation protocols that avoid racemization—critical for peptide and amide bond formation. His interdisciplinary approach blends traditional organic chemistry with sustainability, aiming to create scalable, efficient, and selective processes suitable for industrial application. His contributions significantly enhance both academic understanding and practical implementation in organic synthesis.

Publication Top Notes:

“A visible light-mediated deoxygenation protocol for the synthesis of dipeptides, amides and esters without racemization”

“L-Amino acid ester as a biomimetic reducing agent for the reduction of unsaturated C=C bonds”

“Umpolung Strategy for the One-Pot Synthesis of Highly Steric Bispirooxindoles via the L-Amino Acid Ester-Promoted In Situ Reduction/Nucleophilic Addition/Cyclization Cascade Reaction”

“A visible light-induced deoxygenative amidation protocol for the synthesis of dipeptides and amides”

“An organocatalytic enantioselective ring-reorganization domino sequence of methyleneindolinones with 2-aminomalonates”

“Straightforward Synthesis of 3-Selenocyanato-Substituted Chromones through Electrophilic Selenocyanation of Enaminones under Grinding Conditions”

“Organocatalytic, Enantioselective, Polarity-Matched Ring-Reorganization Domino Sequence Based on the 3-Oxindole Scaffold”

“A One‐Pot Ring‐Opening/Ring‐Closure Sequence for the Synthesis of Polycyclic Spirooxindoles”

“L-Pyroglutamic Sulphonamide as Hydrogen-Bonding Organocatalyst: Enantioselective Diels–Alder Cyclization to Construct Carbazolespirooxindoles”

“Acid-Relayed Organocatalytic exo-Diels-Alder Cycloaddition of Cyclic Enones with 2-Vinyl-1H-indoles”

 

Prof. Mohammad Bakherad | Organic Chemistry | Best Researcher Award

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Prof. Mohammad Bakherad | Organic Chemistry | Best Researcher Award

Prof. Mohammad Bakherad | Organic Chemistry | Researcher at Shahrood University of Technology, Iran

Mohammad Bakherad, born in 1969 in Mashhad, Iran, is a distinguished Professor of Organic Chemistry at Shahrood University of Technology. He earned his B.Sc. in Chemistry from Isfahan University (1992) and completed his M.Sc. (1995) and Ph.D. (2002) at Ferdowsi University of Mashhad under the mentorship of Majid M. Heravi and Mohammad Rahimizadeh. With a prolific research career, he has published over 147 ISI-indexed papers, contributing significantly to organic synthesis, heterocyclic chemistry, catalysis, and green chemistry. His expertise in organometallic reagents and innovative synthetic methodologies has gained international recognition. He has mentored numerous students and led cutting-edge research projects. His commitment to academic excellence and scientific contributions continues to shape the field of organic chemistry in Iran and beyond.

Professional Profile :         

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Summary of Suitability for Award:

Dr. Mohammad Bakherad is a highly accomplished researcher in the field of organic chemistry, particularly in catalysis, heterocyclic chemistry, and green synthetic methodologies. His academic journey, from earning a Ph.D. in Organic Chemistry at Ferdowsi University of Mashhad to becoming a full Professor at Shahrood University of Technology, demonstrates his dedication to research and innovation. With over 147 ISI-cited papers, his contributions have significantly advanced the understanding and application of novel catalytic and environmentally friendly synthetic approaches. Dr. Mohammad Bakherad’s outstanding publication record, pioneering research in organic synthesis and catalysis, and commitment to sustainable chemistry make him an exceptional candidate for the “Best Researcher Award.” His work has had a profound impact on the scientific community, shaping the future of organic chemistry. His innovative methodologies, leadership in academia, and dedication to mentorship and collaborative research make him highly deserving of this recognition.

🎓Education:

Mohammad Bakherad pursued his B.Sc. in Chemistry at Isfahan University, Iran, from 1988 to 1992. He then continued his academic journey at Ferdowsi University of Mashhad, where he obtained his M.Sc. in Organic Chemistry (1993–1996) and later earned his Ph.D. in Organic Chemistry (1996–2002). His doctoral research was conducted under the supervision of esteemed professors Majid M. Heravi and Mohammad Rahimizadeh, focusing on advanced organic synthesis and heterocyclic chemistry. His academic background provided him with a strong foundation in organic methodologies, catalysis, and the development of novel heterocyclic compounds. Through rigorous training and research, he developed expertise in the synthesis of organic frameworks, organometallic reagents, and green chemistry applications. His educational journey laid the groundwork for a prolific career in organic synthesis, contributing significantly to the field with numerous publications and advancements in catalytic and environmentally friendly synthetic approaches.

🏢Work Experience:

Dr. Mohammad Bakherad has had an extensive academic career, beginning as an Assistant Professor of Organic Chemistry at Shahrood University of Technology in July 2003. His dedication and contributions to research and teaching led to his promotion to Associate Professor in January 2008. In February 2013, he achieved the rank of Professor, solidifying his position as a leading researcher in organic and heterocyclic chemistry. Throughout his career, he has mentored numerous students, guiding them in advanced research methodologies and fostering innovation in catalysis and organic synthesis. His teaching experience spans undergraduate and postgraduate levels, covering specialized topics such as organometallic chemistry, synthetic methodologies, and green chemistry. Additionally, he has been actively involved in collaborative research projects, contributing to cutting-edge developments in organic chemistry. His expertise has led to significant advancements in sustainable chemical processes and the development of novel heterocyclic frameworks.

🏅Awards: 

Dr. Mohammad Bakherad has received numerous accolades in recognition of his outstanding contributions to organic chemistry. He has been honored for his pioneering work in catalysis, green synthetic methods, and heterocyclic chemistry. His research excellence has been acknowledged through multiple awards from national and international scientific organizations. He has been invited as a keynote speaker at prestigious conferences, highlighting his expertise in organic synthesis and catalytic methodologies. His scholarly achievements include being recognized for his high-impact publications in leading scientific journals. Furthermore, his commitment to mentorship and academic excellence has earned him appreciation from students and colleagues alike. As a distinguished researcher, he has also been part of various scientific committees, contributing to the advancement of chemistry education and research. His contributions continue to shape the field, fostering innovation and inspiring future generations of chemists.

🔬Research Focus:

Dr. Mohammad Bakherad’s research focuses on organic synthesis, particularly in heterocyclic chemistry, catalysis, and green synthetic methodologies. He has made significant contributions to the development of novel heterocyclic compounds and organometallic reagents, which play a crucial role in medicinal and materials chemistry. His work in catalytic processes has led to innovative and environmentally friendly approaches for synthesizing complex organic molecules. He has explored palladium-catalyzed reactions, Sonogashira coupling, and cyclocondensation techniques to design efficient synthetic routes. Additionally, his interest in sustainable chemistry has driven his research on recyclable catalysts and water-based reactions, reducing the environmental impact of chemical synthesis. His extensive studies on heteroannulation reactions have resulted in the creation of novel bioactive molecules with potential pharmaceutical applications. With over 147 ISI-cited papers, his research continues to influence advancements in organic and green chemistry, making a lasting impact on the scientific community.

Publication Top Notes:

Synthesis, QSAR modeling, and molecular docking studies of 1,2,3-triazole-pyrazole hybrids as significant anti-cancer and anti-microbial agents

Synthesis of new hybrid compounds of imidazo[1,2-a]pyrimidine/pyridine based on quinoxaline through palladium-catalyzed coupling reactions and heteroannulation

A comprehensive review: medicinal applications and diverse synthetic strategies of pyrimidine-based compounds leveraging Suzuki and Sonogashira reactions

Synthesis, and molecular docking studies of novel 1,2,3-triazoles-linked pyrazole carboxamides as significant anti-microbial and anti-cancer agents

Copper catalysts supported by dehydroacetic acid chitosan schiff base for CuAAC click reaction in water

Citations: 1

Furo, Pyrano, and Pyrido[2,3-d]Pyrimidines: A Comprehensive Review of Synthesis and Medicinal Applications

Citations: 5

Synthesis of new 1,2,3-triazole-linked pyrimidines by click reaction

Synthesis of new 4,5-disubstituted-6-methyl-2-(methylthio) pyrimidines via C-C coupling reactions

New Hybrid Compounds from Imidazole and 1,2,3-Triazole: Efficient Synthesis of Highly Substituted Imidazoles and Construction of Their Novel Hybrid Compounds by Copper-Catalyzed Click Reaction

Citations: 1

An Efficient Synthesis of New Pyrazole-Linked Oxazoles via Sonogashira Coupling Reaction

Citations: 2

Mr. Rasim Omanović | Green Chemistry | Best Researcher Award

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Mr. Rasim Omanović | Green Chemistry | Best Researcher Award

Mr. Rasim Omanović | Green Chemistry | Senior Teaching Assistant at University of Sarajevo – Faculty of Science, Bosnia and Herzegovina

Rasim Omanović is a Ph.D. student in Chemistry at the University of Sarajevo, specializing in analytical chemistry, green chemistry and environmental sciences. With extensive experience in laboratory research, scientific writing, and academic teaching, he currently serves as a Senior Teaching Assistant at the Faculty of Science, University of Sarajevo. Additionally, he is a Technical Expert at the Institute for Accreditation of Bosnia and Herzegovina. His research interests include atmospheric aerosol analysis, heavy metal contamination, and green extraction methods using deep eutectic solvents. He has actively participated in international research projects and conferences, contributing significantly to environmental chemistry and sustainable methodologies. Alongside his academic career, he has industry experience as a Sales Engineer at Petrol BH Oil Company. A recipient of the University of Sarajevo Award for Scientific Work, he continues to make notable contributions to analytical and environmental chemistry.

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Summary of Suitability for Award:

Rasim Omanović is a highly qualified and dedicated researcher in the field of analytical and environmental chemistry, making him an excellent candidate for the “Best Researcher Award”. His research contributions span critical areas such as atmospheric aerosol analysis, green chemistry, and the development of eco-friendly extraction techniques using deep eutectic solvents. His work is not only innovative but also impactful, addressing global environmental challenges such as pollution control and heavy metal remediation. He has a strong academic background, currently pursuing a Ph.D. at the University of Sarajevo, and has gained substantial research and teaching experience as a Senior Teaching Assistant. His extensive list of peer-reviewed publications in high-impact journals and active participation in international research collaborations, such as the NextAIRE Horizon project and scientific partnerships with Slovenia, further demonstrate his commitment to scientific excellence. Given Rasim Omanović’s outstanding research contributions, numerous high-quality publications, and active participation in international collaborations, he is a strong candidate for the “Best Researcher Award”. His ability to integrate sustainable methodologies into analytical chemistry, his recognized scientific achievements, and his dedication to solving real-world environmental issues make him highly deserving of this recognition.

🎓Education:

Rasim Omanović is currently pursuing his Ph.D. in Chemistry at the University of Sarajevo – Faculty of Science (2021–Present). He previously earned his Master’s degree in Chemistry from the same institution in 2016 and completed his Bachelor’s degree in Chemistry in 2015. His academic journey has been complemented by various specialized training programs. In 2022, he attended the Training & Research for Academic Newcomers at the University of Sarajevo, further strengthening his pedagogical skills. Additionally, he completed the Fundamentals of Manuscript Preparation course from Elsevier Researcher Academy, gaining valuable insights into scientific writing. His commitment to academic excellence also led him to complete a course on Effective Researcher and Pedagogic Stratification in Academics with the International Society of Engineering Science and Technology in 2021. Furthermore, he successfully passed the Professional Exam in Forensic Science administered by the Civil Service Agency of FBiH in 2018, expanding his expertise into forensic applications.

🏢Work Experience:

Rasim Omanović has extensive experience in academia and research. Since 2023, he has been serving as a Senior Teaching Assistant of Analytical Chemistry at the University of Sarajevo – Faculty of Science. His prior roles include Teaching Assistant of Analytical Chemistry (2020–2023) at the same institution and an External Associate Teaching Assistant at the University of Bihać – Faculty of Health Studies (2023–2024) and the University of Sarajevo – Faculty of Mechanical Engineering (2021–2022). In 2025, he expanded his expertise as a Technical Expert at the Institute for Accreditation of Bosnia and Herzegovina. Additionally, since 2021, he has been a Research Assistant at the International Society of Engineering Science and Technology. Before transitioning into academia, he gained industry experience as a Sales Engineer at Petrol BH Oil Company (2017–2020). His diverse experience showcases his strong analytical, teaching, and research skills across various scientific disciplines.

🏅Awards: 

Rasim Omanović has been recognized for his outstanding scientific contributions. In 2022, he received the University of Sarajevo Award for Scientific Work Results, an acknowledgment of his research achievements. His dedication to scientific excellence extends to his involvement in international collaborations. He is a key researcher in projects under the Scientific and Technological Cooperation between Bosnia and Herzegovina and Slovenia for 2024–2025. His work on Physico-chemical testing of atmospheric aerosol particles and biomonitoring showcases his expertise in environmental chemistry. Additionally, his research on Deep eutectic solvents for green and sustainable extraction of bioactive compounds highlights his commitment to eco-friendly methodologies. In 2025, he joined NextAIRE – Next Generation AI Researchers for Air Quality Excellence, a prestigious EU-funded Horizon project. These honors reflect his continuous efforts in advancing scientific knowledge and addressing critical global challenges in green chemistry, environmental and analytical chemistry.

🔬Research Focus:

Rasim Omanović’s research primarily revolves around analytical and environmental chemistry. His work includes the physico-chemical testing of atmospheric aerosol particles, biomonitoring, and investigating new atmospheric particle formation, a project under the scientific cooperation between Bosnia and Herzegovina and Slovenia. He is also engaged in the development of deep eutectic solvents for green and sustainable extraction of bioactive compounds from agro-industrial by-products, aligning with eco-friendly chemistry principles. Additionally, he is part of the NextAIRE project, which integrates AI into air quality monitoring. His research also extends to developing green nano-sorbents for heavy metal remediation in water and soil contamination analysis. With a strong focus on sustainable and innovative methodologies, his contributions are making a significant impact on environmental science, pollution control, and analytical chemistry. His work demonstrates a multidisciplinary approach, bridging chemistry with technological advancements to solve pressing environmental challenges.

Publication Top Notes:

Synthesis of green nano sorbents for simultaneous preconcentration and recovery of heavy metals from water

Citations: 24

Emerging technologies for biogas production: A critical review on recent progress, challenges and perspectives

Citations: 19

Analysis of stability of naturally aged single base propellants

Heavy metal contamination of street dust of Canton Sarajevo, Bosnia and Herzegovina–Health risk assessment

Determination of Water Extractable Chloride in the Greenhouse Soil and Minimizing Interferences Caused by the Presence of the Iron Ions

Application of Grapefruit Peel as Biosorbent for Removal of Copper (II), Lead (II), Cadmium (II) and Zinc (II) from Aqueous Solution

 

Assoc. Prof. Dr. Yue-Jin Liu | Organic Chemistry | Green Chemistry Award

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Assoc. Prof. Dr. Yue-Jin Liu | Organic Chemistry | Green Chemistry Award

Assoc. Prof. Dr. Yue-Jin Liu | Organic Chemistry | Hubei University ,China

Dr. Yue-Jin Liu is an Associate Professor at Hubei University, specializing in organic chemistry and catalytic transformations. His research primarily focuses on developing novel methodologies for inert chemical bond activation, particularly carbon-hydrogen (C–H) bond functionalization. Dr. Liu has made significant contributions to the field by designing innovative strategies for multi-component reactions, paving the way for more efficient synthesis of biologically active molecules and functional organic compounds. His recent work on ruthenium-catalyzed remote C–H functionalization of naphthalenes has been widely recognized. Dr. Liu has published in leading journals such as Chemical Science, contributing valuable insights to the scientific community. Despite his intensive academic engagements, he continues to explore new synthetic strategies that promote sustainable and green chemistry approaches. Dr. Liu’s dedication to advancing organic synthesis has established him as an emerging expert in the field, with an ever-growing impact on modern synthetic methodologies.

Professional Profile :         

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Summary of Suitability for Award:

Dr. Yue-Jin Liu’s research focuses on developing novel organic synthesis methods with an emphasis on C–H bond activation, a key aspect of green chemistry. His work on ruthenium-catalyzed three-component reactions enables efficient, modular, and atom-economical synthesis of multifunctional naphthalenes. This aligns with green chemistry principles by minimizing waste, reducing the need for hazardous reagents, and enhancing reaction efficiency. His catalyst-driven methodologies promote sustainable chemical transformations, making his research highly relevant to the Green Chemistry Award category. Dr. Yue-Jin Liu’s contributions to sustainable organic synthesis through C–H activation strategies make him a strong contender for the “Green Chemistry Award”. His work reduces environmental impact by utilizing direct functionalization approaches, avoiding toxic reagents, and increasing efficiency in organic synthesis. These advancements have significant implications for eco-friendly chemical manufacturing, supporting global sustainability goals.

🎓Education:

Dr. Yue-Jin Liu pursued his higher education in organic chemistry, focusing on advanced synthesis and catalysis. He obtained his Bachelor’s, Master’s, and Ph.D. degrees from prestigious institutions where he specialized in carbon-hydrogen bond activation and synthetic methodologies. His doctoral research laid the foundation for his career, emphasizing transition-metal-catalyzed organic transformations. During his academic journey, Dr. Liu worked under the guidance of renowned chemists, gaining expertise in molecular design, reaction mechanisms, and green synthetic approaches. Throughout his education, he engaged in multiple research projects that contributed to the development of new catalytic systems. His commitment to innovation and excellence in organic synthesis has led him to a successful career in academia, where he continues to mentor students and advance research in C–H activation. His strong academic background serves as the backbone of his contributions to the field of organic and medicinal chemistry.

🏢Work Experience:

Dr. Yue-Jin Liu currently serves as an Associate Professor at Hubei University, where he focuses on organic synthesis and catalysis. With years of experience in developing new methodologies for carbon-hydrogen bond activation, he has contributed significantly to green chemistry and efficient molecular synthesis. His expertise extends to transition-metal catalysis, multi-component reactions, and synthetic applications in biologically active molecules. Dr. Liu has led several research projects, including the ruthenium-catalyzed three-component tandem remote C–H functionalization of naphthalenes, which has enhanced the efficiency of modular synthesis. Beyond academia, he actively collaborates with researchers worldwide, contributing to high-impact publications in Chemical Science. His commitment to teaching and mentoring young researchers has shaped the next generation of scientists in organic chemistry. Dr. Liu’s extensive experience in synthetic methodologies continues to drive forward the boundaries of modern organic transformations.

🏅Awards: 

Dr. Yue-Jin Liu’s groundbreaking work in organic synthesis and catalysis has earned him recognition in the scientific community. His research on C–H activation strategies has been cited extensively, reflecting his contributions to green chemistry and innovative molecular synthesis. In 2025, he was nominated for the Green Synthesis Award for his pioneering work on ruthenium-catalyzed multi-component reactions. His publications in top-tier journals like Chemical Science have solidified his reputation as an emerging leader in organic chemistry. Despite his focus on fundamental research, Dr. Liu’s methodologies have practical applications in pharmaceutical synthesis and materials chemistry, earning him academic accolades. He continues to strive for excellence, pushing the boundaries of modern synthetic techniques and contributing to sustainable chemical transformations. His commitment to innovation and environmental responsibility has positioned him as a rising figure in green and sustainable chemistry.

🔬Research Focus:

Dr. Yue-Jin Liu’s research is dedicated to developing novel strategies for carbon-hydrogen (C–H) bond activation, aiming to create efficient, sustainable, and selective organic transformations. His work emphasizes multi-component reactions (MCRs), enabling the synthesis of complex molecular frameworks with high atom economy. A significant part of his research involves ruthenium-catalyzed tandem remote C–H functionalization, which facilitates the modular and concise synthesis of multifunctional naphthalenes. His studies contribute to green chemistry, reducing the need for harsh reagents and wasteful synthetic steps. Dr. Liu also explores transition-metal catalysis and ligand-controlled selectivity, expanding the scope of synthetic methodologies for biologically active compounds. His innovative approaches have potential applications in drug discovery, materials science, and fine chemical production. By integrating computational chemistry and experimental design, he continuously seeks to enhance reaction efficiency, selectivity, and sustainability in modern organic synthesis.

Publication Top Notes:

Cobalt(II)-Catalyzed Selective C2–H Heck Reaction of Native (N–H) Indoles Enabled by Salicylaldehyde Ligand

Salicylaldehyde-Enabled Co(II)-Catalyzed Oxidative C–H Alkenylation of Indoles with Olefins

Ruthenium-Catalyzed Three-Component Tandem Remote C–H Functionalization of Naphthalenes: Modular and Concise Synthesis of Multifunctional Naphthalenes

Mild C−H Alkoxylation of Aromatic Amides Catalyzed by Salicylaldehyde‐Co(II) Complexes

Cobalt/Salicylaldehyde-Enabled C–H Alkoxylation of Benzamides with Secondary Alcohols under Solvothermal Conditions

Salicylaldehyde-Cobalt(II)-Catalyzed C–H Alkoxylation of Indoles with Secondary Alcohols

Selective Synthesis of Sulfonamides and Sulfenamides from Sodium Sulfinates and Amines

Rapid Modular Synthesis of Indole Ethers via Dehydrogenative Cross-Coupling Reaction of Indoles and Alcohols

Remote C5-Selective Functionalization of Naphthalene Enabled by P–Ru–C Bond-Directed δ-Activation

Ru(II)-Catalyzed P(III)-Assisted C8-Alkylation of Naphthphosphines

Ruthenium-Catalyzed Meta-Difluoromethylation of Arene Phosphines Enabled by 1,3-Dione

Salicylaldehyde-Promoted Cobalt-Catalyzed C–H/N–H Annulation of Indolyl Amides with Alkynes: Direct Synthesis of a 5-HT3 Receptor Antagonist Analogue

 

Dr. Minitha R | Inorganic Chemistry | Best Researcher Award

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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 :                       

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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. Hongjian Qin | Organic Chemistry | Best Researcher Award

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Dr. Hongjian Qin | Organic Chemistry | Best Researcher Award

Dr. Hongjian Qin , Shanghai Institute of Materia Medica, CAS , China

Dr. Hongjian Qin is an accomplished researcher in sustainable and green chemistry, with expertise in drug process development and medicinal administration. He earned his Ph.D. in Organic Chemistry from the Chinese Academy of Sciences, being recognized as an Excellent Graduate in 2024. Dr. Hongjian Qin’s contributions to the field span over three years, emphasizing environmentally friendly pharmaceutical synthesis and active pharmaceutical ingredient (API) development. Currently serving as Research Director at Topharman Company Limited, he continues to advance innovative solutions in drug development. His work includes mentoring students, enhancing resource recovery, and participating in COVID-19 research. With numerous impactful publications, Dr. Hongjian Qin is a dedicated professional committed to promoting sustainability and advancing solutions for global environmental challenges.

Professional Profile:

Scopus 

Summary of Suitability for Award:

Dr. Hongjian Qin is an exemplary candidate for the “Best Researcher Awards,” with a distinguished career in sustainable and green chemistry. His pioneering research in eco-friendly pharmaceutical synthesis has significantly contributed to reducing industrial waste and enhancing process efficiency, aligning with global sustainability objectives. Dr. Hongjian Qin’s innovative work on ligand-free catalysis, large-scale API production, and impurity profiling reflects his expertise in developing practical solutions for complex challenges in organic chemistry and medicinal chemistry. Dr. Hongjian Qin’s research excellence, innovative contributions, and global impact make him a highly deserving candidate for the “Best Researcher Awards.” His work not only addresses critical scientific challenges but also fosters sustainable practices in drug development, making a lasting impact on both academia and industry.

🎓Education:

Dr. Hongjian Qin holds a Ph.D. in Organic Chemistry from the Chinese Academy of Sciences , specializing in process development of drug substances and medicinal administration. His doctoral work was conducted at the Key Laboratory of Plant Resources and Chemistry in Arid Regions, showcasing expertise in sustainable pharmaceutical synthesis. He completed a Master of Engineering in Organic Chemistry from Guangxi University, focusing on the process development of drug substances. Dr. Qin’s academic journey began with a Bachelor of Science in Organic Chemistry from Guangxi University . His educational foundation combines rigorous theoretical knowledge with practical applications, preparing him to address complex challenges in green and sustainable chemistry.

🏢Work Experience:

Dr. Hongjian Qin’s professional journey spans over a decade, focusing on pharmaceutical synthesis and sustainable chemistry. As Research Director at Topharman Company Limited (2024–present), he spearheads innovations in active pharmaceutical ingredients (APIs) and emphasizes good manufacturing practices (GMP). Previously, as a Research Assistant at the Shanghai Institute of Materia Medica (2021–2024), he supported COVID-19 research projects, trained students, and enhanced pharmaceutical waste recovery techniques. At the Xinjiang Engineering Research Centre for Key Technologies and Processes of Ethnomedicine (2015–2021), Dr. Hongjian Qin led projects on sustainable API production and industrial resource recovery. His experiences reflect a blend of academic research and industrial application, driving advancements in pharmaceutical science.

🏅Awards: 

Dr. Hongjian Qin has received numerous accolades for his contributions to sustainable chemistry. He was honored as an Excellent Graduate in 2024 by the University of Chinese Academy of Sciences for his outstanding academic achievements during his Ph.D. studies. His work on sustainable pharmaceutical synthesis earned him recognition at various national and international conferences. Dr. Hongjian Qin has been instrumental in developing innovative processes for drug substances, garnering appreciation from industrial partners. Additionally, his mentorship roles and administrative contributions at research institutions have been commended, underscoring his commitment to advancing science and education.

🔬Research Focus:

Dr. Hongjian Qin’s research focuses on sustainable and green chemistry, particularly in the process development of drug substances. He has worked extensively on optimizing synthesis methods for pharmaceutical intermediates, reducing waste, and improving efficiency in drug manufacturing. His innovative approaches emphasize the use of eco-friendly reagents and catalysts, aligning with global sustainability goals. His recent work includes developing ligand-free copper-catalyzed cyclization methods, novel iron-catalyzed cross-coupling reactions, and efficient large-scale processes for active pharmaceutical ingredients (APIs). Dr. Hongjian Qin is dedicated to advancing environmentally responsible techniques in pharmaceutical synthesis, ensuring both industrial viability and ecological preservation.

Publication Top Notes:

1. Direct Esterification of Amides by the Dimethylsulfate-Mediated Activation of Amide C–N Bonds

Authors: Qin, H.; Han, Z.; Bonku, E.M.; Shen, J.; Aisa, H.A.

Year: 2024

Citations: 0

2. An Alternative Approach to Synthesize Sildenafil via Improved Copper-Catalyzed Cyclization

Authors: Odilov, A.; Gong, X.; Qin, H.; Yang, F.; Shen, J.

Year: 2024

Citations: 0

3. Impurity Study of Tecovirimat (Open Access)

Authors: Bonku, E.M.; Qin, H.; Odilov, A.; Wang, X.; Shen, J.

Year: 2024

Citations: 1

4. Improved and Ligand-Free Copper-Catalyzed Cyclization for an Efficient Synthesis of Benzimidazoles from o-Bromoarylamine and Nitriles (Open Access)

Authors: Bonku, E.M.; Qin, H.; Odilov, A.; Aisa, H.A.; Shen, J.

Year: 2024

Citations: 2

5. Direct Reductive N-Alkylation of Amines with Carboxylic Esters

Authors: Zhang, Y.; Bonku, E.M.; Yang, X.; Shen, J.; Qin, H.

Year: 2024 (In Press)

Citations: 0

6. Iron-Catalyzed Cross-Coupling Reactions of Alkyl Grignard Reagents with Alkenyl Carbonate

Authors: Qin, H.; Yang, X.; Mintah Bonku, E.; Shen, J.; Akber Aisa, H.

Year: 2024 (In Press)

Citations: 0

7. A Review of the Synthetic Strategies Toward the Antiviral Drug Tecovirimat (Review Article)

Authors: Bonku, E.M.; Qin, H.; Odilov, A.; Zhu, F.; Shen, J.

Year: 2024 (In Press)

Citations: 0

8. An Improved Iodine-Catalyzed Aromatization Reaction and Its Application in the Synthesis of a Key Intermediate of Cannabidiol

Authors: Abduahadi, S.; Bonku, E.M.; Qin, H.; Aisa, H.A.; Shen, J.

Year: 2024 (In Press)

Citations: 0

9. Optimized Synthesis of the Key Intermediate of Telmisartan via the Cyclization of 2-Bromoarylamine with n-Butyronitrile

Authors: Qin, H.; Mintah Bonku, E.; Odilov, A.; Zhu, F.; Aisa, H.A.

Year: 2023

Citations: 1

10. Efficient Large-Scale Process for Tecovirimat via Reactive Distillation for the Preparation of Cycloheptatriene

Authors: Bonku, E.M.; Qin, H.; Odilov, A.; Guma, S.D.; Shen, J.

Year: 2023

Citations: 4

 

 

 

 

 

Assist. Prof. Dr. Che-Sheng Hsu | Organic Chemistry | Best Researcher Award

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Assist. Prof. Dr. Che-Sheng Hsu | Organic Chemistry | Best Researcher Award 

Assist. Prof. Dr. Che-Sheng Hsu , Fu Jen Catholic University , Taiwan

Che-Sheng Hsu is an Assistant Professor at Fu Jen Catholic University, New Taipei City, Taiwan. He specializes in organic synthetic methodologies and natural product synthesis, focusing on developing innovative approaches for high-performance chemistry. With a strong dedication to research, he has contributed significantly to the field by introducing novel iodide-umpolung catalysis systems and efficient methods for synthesizing polysubstituted vinyl sulfones. Known for his commitment to advancing molecular construction techniques, Che-Sheng aims to achieve sustainable and efficient chemical processes. His work has been published in indexed journals, reflecting the impact of his innovative research in organic synthesis.

Professional Profile: 

Orcid 

Summary of Suitability for Award:

Dr. Che-Sheng Hsu is a suitable candidate for the “Best Researcher Award” due to his groundbreaking research in organic synthesis and demonstrated potential for future contributions. His dedication to advancing high-efficiency chemistry through sustainable methodologies is commendable and positions him as an emerging leader in the field. Despite limited professional accolades so far, his innovative work lays a strong foundation for recognition and continued excellence in research. Dr. Che-Sheng Hsu demonstrates significant promise and dedication to advancing organic chemistry. His innovative contributions to organic synthetic methodologies, particularly his discovery of a novel iodide-umpolung catalysis system and efficient synthesis of poly substituted vinyl sulfones, highlight his potential for impactful research.

🎓Education:

Dr. Che-Sheng Hsu completed his undergraduate and postgraduate studies in Chemistry, specializing in organic synthesis. His academic journey is marked by rigorous training in advanced chemical methodologies and a focus on sustainable synthesis. He pursued his doctoral research, emphasizing the development of innovative reaction mechanisms, particularly in iodine reagent-based chemistry. Throughout his academic career, Che-Sheng demonstrated exceptional analytical skills and a keen interest in discovering new chemical reactions, paving the way for his future contributions to organic synthesis. His education has provided a robust foundation for his current research endeavors and academic contributions.

🏢Work Experience:

Dr. Che-Sheng Hsu has served as an Assistant Professor at Fu Jen Catholic University since the beginning of his academic career. With a specialization in organic synthetic methodologies, he combines teaching with active research to guide students and contribute to the field. His work includes the discovery of a novel iodide-umpolung catalysis system and the development of efficient synthetic routes for poly substituted vinyl sulfones. Despite being relatively new in the field, he is committed to advancing research through collaboration and innovation, leveraging his expertise to make meaningful scientific contributions.

🏅Awards:

Dr. Che-Sheng Hsu, an emerging researcher in the field of organic chemistry, has earned recognition for his innovative contributions to synthetic methodologies. While he is at an early stage in his career and has not yet received formal awards, his groundbreaking research in developing a novel iodide-umpolung catalysis system and efficient methods for synthesizing poly substituted vinyl sulfones has garnered appreciation from peers and experts in the field. His publication in a reputed indexed journal highlights the quality and relevance of his work. Dr. Che-Sheng Hsu’s commitment to advancing high-performance and sustainable chemical processes reflects his potential for achieving notable accolades in the future. With his focus on impactful research, he is poised to become a recognized leader in organic synthesis, and his work lays the foundation for achieving honors that acknowledge his contributions to science and innovation.

🔬Research Focus:

Dr. Che-Sheng  Hsu’s research centers on organic synthesis, with an emphasis on high-efficiency reaction mechanisms. He focuses on utilizing iodine reagents to construct complex molecules through innovative methods. His research has led to the development of a novel iodide-umpolung catalysis system, which enables the synthesis of poly substituted vinyl sulfones with remarkable performance. By exploring sustainable and efficient chemical processes, he contributes to advancing the field of organic chemistry. His work seeks to balance innovative research with practical applications, ensuring that his findings are both impactful and accessible for further scientific exploration.

Publication Top Notes:

Iodide-umpolung catalytic system for non-traditional amide coupling from nitroalkanes and amines