Taek Hyeon Kim | Organic Chemistry | Best Researcher Award

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Prof Dr. Taek Hyeon Kim | Organic Chemistry | Best Researcher Award

Prof Dr. Taek Hyeon Kim, Chonnam National University, South Korea

Publication profile

Academic and Professional Background

Prof. Dr. Taek Hyeon Kim earned his Ph.D. from Korea Advanced Institute of Science and Technology (KAIST). He furthered his expertise through a postdoctoral course at UC Berkeley, USA, and worked with SK Innovation in Korea. He served as the Dean of the College of Engineering at Chonnam National University. Recognized as one of the top 30 researchers by the National Research Foundation of Korea in 2002, he has published over 100 SCI papers and holds 8 Korean patents. He is a member of the Korean Chemical Society, The Polymer Society of Korea, and The Korean Society of Industrial and Engineering Chemistry.

Areas of Research

Prof. Kim’s research focuses on organocatalysis, organic synthesis, and organic synthetic methods. He has extensively studied the development of novel synthetic methodologies and chiral auxiliaries, as well as solid-phase synthesis and molecular recognition. His work contributes significantly to asymmetric reactions and the broader field of organic chemistry.

Contributions

Prof. Kim’s 30-year research career has been marked by pioneering work in organic synthetic methodologies. His initial research aimed at creating novel organic phosphorus compounds for Wittig reactions. During his postdoctoral tenure in Henry Rapoport’s group, he worked on synthesizing important organic compounds using amino acids. At Chonnam National University, he has continued to advance research on chiral auxiliaries, solid-phase synthesis, molecular recognition, and organic catalysts for asymmetric reactions.

Publication Top Notes

  • Synthesis of ethyl 3-cyano-2-methylcinnamates and 3-cyano-2-methylcinnamonitriles from the Baylis–Hillman acetates
    YM Chung, JH Gong, TH Kim, JN Kim
    Tetrahedron Letters 42 (51), 9023-9026
    📚 852001
  • Melt grafting of maleimides having hindered phenol antioxidant onto low molecular weight polyethylene
    TH Kim, DR Oh
    Polymer degradation and stability 84 (3), 499-503
    📚 722004
  • Melt free‐radical grafting of hindered phenol antioxidant onto polyethylene
    TH Kim, HK Kim, DR Oh, MS Lee, KH Chae, S Kaang
    Journal of applied polymer science 77 (13), 2968-2973
    📚 692000
  • Synthesis of 1, 3-disubstituted naphthalenes from the Baylis–Hillman acetates with the aid of manganese (III) acetate
    YJ Im, KY Lee, TH Kim, JN Kim
    Tetrahedron letters 43 (26), 4675-4678
    📚 672002
  • Regioselective construction of polysubstituted pyridine ring from Baylis–Hillman adducts via sequential introduction of tosylamide, Michael reaction, aldol condensation, and …
    MJ Lee, TH Kim, JN Kim
    Tetrahedron letters 46 (50), 8799-8803
    📚 572005
  • Efficient synthesis of 2-methylaminothiazolines via Mitsunobu reaction of N-(2-hydroxyethyl)-N′-methyl-thioureas
    TH Kim, MH Cha
    Tetrahedron letters 40 (16), 3125-3128
    📚 541999
  • Regiocontrolled cyclization reaction of N-(2-hydroxyethyl) ureas by transfer of activation: one-pot synthesis of 2-imidazolidinones
    TH Kim, GJ Lee
    The Journal of organic chemistry 64 (8), 2941-2943
    📚 481999
  • Pd-Mediated synthesis of 7H-benzo [3, 4] azepino [1, 2-a] indole-6-carboxylic acid derivatives from indole-containing Baylis–Hillman adducts
    HS Lee, SH Kim, TH Kim, JN Kim
    Tetrahedron Letters 49 (11), 1773-1776
    📚 472008
  • Regioselective synthesis of polysubstituted phenol derivatives from Baylis–Hillman adducts via [3+ 3] annulation strategy
    SJ Kim, TH Kim, JN Kim
    Tetrahedron letters 47 (35), 6315-6319
    📚 452006
  • A mild cyclodesulfurization of N-(2-hydroxyethyl)-N′-phenylthioureas to 2-phenylamino-2-oxazolines using TsCl/NaOH
    TH Kim, N Lee, GJ Lee, JN Kim
    Tetrahedron 57 (33), 7137-7141
    📚 412001
  • A water‐developable negative photoresist based on the photocrosslinking of N‐phenylamide groups with reduced environmental impact
    KH Chae, GJ Sun, JK Kang, TH Kim
    Journal of applied polymer science 86 (5), 1172-1180
    📚 372002
  • S-Benzyl isothiouronium chloride as a recoverable organocatalyst for the direct reductive amination of aldehydes
    QPB Nguyen, TH Kim
    Tetrahedron letters 52 (39), 5004-5007
    📚 342011


Conclusion

Prof. Dr. Taek Hyeon Kim’s extensive experience, impactful research contributions, and significant academic achievements make him a strong candidate for the Research for Best Researcher Award. His innovative work in organic synthesis and catalytic methods aligns well with the award’s criteria, highlighting his excellence and influence in the field.

 

Deepshikha Gupta | Organic chemistry | Best Researcher Award

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Prof. Deepshikha Gupta | Organic chemistry | Best Researcher Award

Professor, Amity Institute of Applied Sciences, Amity University Noida, India

Deepshikha Gupta is a distinguished academic and researcher in the field of Chemistry, currently serving as a Professor at Amity University, Noida, Uttar Pradesh, India, since March 2023. She has been a faculty member at Amity University since August 2006, where she initially held the position of Associate Professor.

 

Publication Profile

Strengths for the Award:

  1. Extensive Research Experience: Dr. Deepshikha Gupta has a prolific research background, with numerous publications in high-impact journals and contributions to various books. Her research focuses on cutting-edge topics like natural products, nanomaterials, and their applications in medicine, which are highly relevant and impactful in current scientific discourse.
  2. Multidisciplinary Expertise: Her work spans across multiple disciplines, including chemistry, nanotechnology, and materials science, demonstrating her versatility and ability to contribute to diverse fields.
  3. International Recognition: Dr. Gupta’s research is widely recognized internationally, as evidenced by her numerous citations, multiple Scopus Author IDs, and extensive publication history in reputed journals and conferences.
  4. Sustainability Focus: Her recent work on sustainable approaches to nanoparticle synthesis highlights her commitment to addressing global challenges like environmental sustainability, which is increasingly valued in contemporary research.

Areas for Improvement:

  1. Industry Collaboration: While her academic achievements are significant, there is limited evidence of direct collaboration with industry, which could enhance the practical application and commercialization of her research findings.
  2. Impact on Policy: Her research could benefit from a more pronounced impact on policy-making, particularly in areas like environmental protection and public health, where her work on nanomaterials and natural products could provide valuable insights.
  3. Public Engagement: Increasing her involvement in public science communication and outreach activities could help bridge the gap between her research and societal understanding, thereby amplifying the impact of her work.

 

🎓 Education:

Dr. Deepshikha Gupta earned her Ph.D. in Chemistry from Jai Narain Vyas University, Jodhpur, Rajasthan, India, completing her degree in August 2000.

🏢  Experience:

Dr. Gupta has an extensive academic career at Amity University, Noida, Uttar Pradesh, where she has served as an Associate Professor of Chemistry since August 2006. Recently, in March 2023, she was promoted to the position of Professor at the same institution, where she continues to contribute significantly to the field of chemistry.

🔬 Research Interests:

Dr. Gupta’s research focuses on natural products, antioxidant potential, antimicrobial activity, and metal oxide nanoparticles. Her work has made substantial contributions to these areas, emphasizing sustainable and green chemistry approaches.

📚 Publications:

Dr. Gupta has an impressive portfolio of scholarly work, including numerous journal articles and book chapters. Some of her recent publications include:

“Rethinking Nanoparticle Synthesis: A Sustainable Approach vs. Traditional Methods” in Chemistry – An Asian Journal (2024).

“Industrial Applications of Nanoparticle Immobilized Enzymes” in Nano-Enzyme Incorporated Particles (2024).

“Coumarin—Synthetic Methodologies, Pharmacology, and Application as Natural Fluorophore” in Topics in Current Chemistry (2024).

“A Review on Hydrogels for Smart Drug Delivery Systems and their Mathematical Modelling” in Current Materials Science (2024).

“Synthesis of Gold Nanoparticles and Their Applications in Cancer Therapy” in Biointerface Research in Applied Chemistry (2024).

 

Conclusion:

Dr. Deepshikha Gupta is a strong candidate for the Best Researcher Award due to her extensive research contributions, multidisciplinary expertise, and international recognition. Her work on sustainable nanoparticle synthesis and natural products is particularly commendable. However, she could further strengthen her candidacy by enhancing industry collaborations, influencing policy, and engaging with the public to maximize the societal impact of her research. Overall, she is a highly deserving candidate for the award.

 

Wang Lijia | Organic Chemistry Award | Best Researcher Award

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Prof. Wang Lijia | Organic Chemistry Award | Best Researcher Award

Prof. Wang Lijia, East China Normal University, China

Prof. Wang Lijia, an accomplished organic chemist 🧪, currently serves as a Professor at East China Normal University. With a Ph.D. from Sichuan University and postdoctoral experience at Kyoto University, she specializes in asymmetric catalysis and total synthesis of natural products. Her groundbreaking research includes innovative strategies for synthesizing polycyclic spiroindolines, resulting in the efficient construction of bioactive molecules. Prof. Wang’s contributions have earned her prestigious awards, including the JSPA Lectureship Award. Fluent in English and Chinese, her impactful publications showcase her expertise in transition-metal-catalyzed reactions and tandem cyclizations. Elected to the Youth Innovation Promotion Association, Chinese Academy of Sciences, Prof. Wang is a leading figure in organic chemistry.

 

Publication Profile

Orcid

Academic Journey

Born and raised in China, Dr. Lijia Wang is a distinguished figure in the field of organic chemistry, renowned for her groundbreaking contributions to asymmetric catalysis and total synthesis of natural products. With an unwavering commitment to scientific exploration, Dr. Wang embarked on her academic journey at Sichuan University, where she earned her Bachelor of Science in Chemistry under the guidance of Dr. Meng Yang. Fuelled by a thirst for knowledge and a passion for discovery, she continued her academic pursuits at the same institution, obtaining her Ph.D. under the mentorship of Prof. Xiaoming Feng, focusing on organic chemistry from 2004 to 2009.

Awards

Dr. Wang’s contributions to the field have not gone unnoticed, as evidenced by the prestigious accolades she has received throughout her career. In 2024, she was honored with the JSPA Lectureship Award in Japan, a testament to her exceptional scholarship and international acclaim.

Research Focus

Dr. Lijia Wang, an esteemed chemist, specializes in organic synthesis and asymmetric catalysis. 🧪 Her research focuses on developing innovative synthetic methodologies for the construction of complex molecules with precise stereochemistry. She is particularly interested in tandem annulation reactions and cascade reactions, aiming to address challenges in diversity and stereoselectivity control. Dr. Wang’s work has led to significant advancements in the synthesis of biologically active compounds and natural products. With a keen eye for detail and a passion for discovery, she continues to push the boundaries of organic chemistry, shaping the future of the field.

 

Publication Top Notes

Insights into Stereoselectivity Switch in Michael Addition-Initiated Tandem Mannich Cyclizations and Their Extension from Enamines to Vinyl Ethers

Synthesis of Thienyl Polycyclic Fused Indoles Based on the Indium Catalyzed Prins/Friedel‐Crafts Tandem Reaction

Side arm modified chiral bisoxazoline ligands: Recent development and prospect in asymmetric catalysis

Allenamide‐Initiated Cascade [2+2+2] Annulation Enabling the Divergent Total Synthesis of (−)‐Deoxoapodine, (−)‐Kopsifoline D and (±)‐Melotenine A

Allenamide‐Initiated Cascade [2+2+2] Annulation Enabling the Divergent Total Synthesis of (−)‐Deoxoapodine, (−)‐Kopsifoline D and (±)‐Melotenine A

Rapid Construction of Enantioenriched Benzofurochromanes by SaBOX/Copper(II) Catalyzed Enantioselective [3 + 2] Annulation of γ-Chromenes with Quinones

A Versatile Enantioselective Catalytic Cyclopropanation‐Rearrangement Approach to the Divergent Construction of Chiral Spiroaminals and Fused Bicyclic Acetals

Facile Stereoselective Approach to Diverse Spiroheterocyclic Tetrahydropyrans: Concise Synthesis of (+)‐Broussonetine G and H

A Versatile Enantioselective Catalytic Cyclopropanation‐Rearrangement Approach to the Divergent Construction of Chiral Spiroaminals and Fused Bicyclic Acetals

Divya Tripathy | Organic Chemistry Award | Women Researcher Award

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Prof. Divya Tripathy | Organic Chemistry Award | Women Researcher Award

Prof. Divya Tripathy, Galgotias University, India

Prof. Divya Tripathy is a seasoned educator and researcher specializing in Forensic Sciences. With a Ph.D. in Applied Chemistry, her expertise spans across academia and industry. She has served as a Professor and Associate Professor at Galgotias University, contributing significantly to the Department of Forensic Sciences. Prior to this, she held roles as an Ad-hoc faculty and Woman Scientist at Gautam Buddha University. Prof. Tripathy’s diverse experience includes positions in chemical industry and academia, reflecting her passion for both research and teaching. She holds a Master’s degree in Organic Chemistry and has made notable contributions to the field through her thesis on imidazoline surfactants. 🎓🔬

 

Publication Profile

Scopus

orcid

Google Scholar

Education and Qualification 

Prof. Divya Tripathy’s educational journey is marked by a commendable pursuit of excellence in chemistry and related fields. She earned her Ph.D. in Applied Chemistry from HBTI, Kanpur, under the aegis of U.P. Technical University, Lucknow, from 2003 to 2009. Her doctoral thesis, titled “Studies on imidazoline surfactants for laundry detergent compositions,” reflects her deep engagement with practical applications of chemistry. Prior to her doctoral studies, she completed her Master of Science in Organic Chemistry from C.S.J.M. University, Kanpur, in 2002, demonstrating a solid foundation in her chosen field. Her academic journey commenced with a Bachelor of Science degree in Botany, Chemistry, and Zoology from the same university, where she graduated with distinction. Notably, her academic prowess was evident even during her intermediate studies at U.P. Board, Allahabad, where she achieved a commendable score of 71%. These educational achievements underscore Prof. Tripathy’s commitment to academic excellence and her passion for advancing knowledge in the field of chemistry.

Professional Experience 

Prof. Divya Tripathy boasts a rich tapestry of professional experiences, spanning academia and industry. Her journey commenced with a role as a Senior Officer QA at Shree Chemicals Industry in Kanpur, where she honed her skills in quality assurance from 2009 to 2012. Transitioning to academia, she served as an Assistant Professor at ITS Engineering College, Greater Noida, from February 2014 to June 2015, imparting knowledge in Applied Science and Humanities. Subsequently, her academic journey led her to Gautam Buddha University, where she held positions as a Woman Scientist and Ad-hoc faculty from 2015 to 2018. Notably, she contributed to the Department of Applied Chemistry, further solidifying her expertise in the field. Since December 2018, Prof. Tripathy has been an integral part of Galgotias University, where she currently serves as a Professor in the Department of Forensic Sciences, continuing her impactful journey in academia.

 

Research Focus

Prof. Divya Tripathy’s research spans various domains, primarily focusing on innovative materials and their applications. 🧪 She explores nanocomposites, biomaterials, and surface treatments, aiming at multifunctional and sustainable solutions. Her work delves into the synthesis and characterization of novel materials like MXenes and MBenes, highlighting their potential in water remediation and energy storage. Additionally, she contributes to the development of biosurfactants and explores their applications in various fields. Prof. Tripathy’s research is characterized by its interdisciplinary nature, bridging chemistry, materials science, and environmental science to address contemporary challenges and drive technological advancements.

 

Publication Top Notes