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.

 

Dinesh Kumar Chelike | Inorganic Chemistry | Best Researcher Award

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Dr. Dinesh Kumar Chelike | Inorganic Chemistry | Best Researcher Award

Dr. Dinesh Kumar Chelike, Rungta College of Engineering and Technology Bhilai, India

Dr. Dinesh Kumar Chelike is an Assistant Professor of Chemistry at Rungta College of Engineering & Technology, Bhilai, India. With a Ph.D. in Chemistry from SRM Institute of Science and Technology, he specializes in developing non-isocyanate polyurethanes (NIPU) for drug delivery and battery applications, as well as fluorescent materials for metal ion sensing and hybrid inorganic-organic materials for optical/sensor applications. Dr. Chelike has held a Senior Research Associate position at Clearsynth R&D Lab and has contributed to over 11 peer-reviewed articles, 2 book chapters, and 1 patent. He has been awarded the RARE Award 2024 and the Young Research Award 2020. 🌟🔬📚

Publication profile

Google Scholar

Orcid

🎓 Education

Dr. Dinesh Kumar Chelike holds a PhD in Chemistry from SRM Institute of Science and Technology, Chennai (2022), with a focus on hybrid inorganic-organic molecules and non-isocyanate polyurethanes. He completed his MSc in Chemistry from Karunya Institute of Technology & Sciences, Coimbatore (2017), and a BSc in Chemistry from Kalayan P.G. College, Bhilai (2015).

👨‍🏫 Professional Experience

Currently an Assistant Professor in Chemistry at Rungta College of Engineering & Technology, Bhilai, Dr. Chelike has also served as a Senior Research Associate at Clearsynth R&D Lab, Secunderabad. He is a prolific researcher with a focus on sustainable materials and sensor applications.

🏆 Awards & Achievements

Dr. Chelike has received multiple accolades, including the RARE Award-2024 and the Young Research Award 2020 from the Institute of Scholar, Bangalore. He has a patent on sustainable non-isocyanate polyurethanes and has published extensively in high-impact journals.

 

Research Focus

DK Chelike is focused on the development of biodegradable and sustainable materials, particularly in the realm of polyurethanes and nanocomposites. 🌱 Their research includes optimizing biodegradable polyurethane foams for footwear to reduce waste, synthesizing isocyanate-free polyurethane films, and creating plant-derived iron oxide nanoparticles for environmental applications. Chelike’s work extends to the valorization of lignocellulosic biomass via fungal biodegradation and the formulation of non-isocyanate polyurethanes from vegetable oils. This research highlights a commitment to advancing eco-friendly materials with applications in reducing pollution, enhancing sustainability, and promoting green chemistry. 🌿🔬

Publication Top Notes

  • Biodegradable polyurethane foam as shoe insole to reduce footwear waste: Optimization by morphological physicochemical and mechanical properties 🥿🔬
    Applied Surface Science 499, 143966
    Cited by: 39 Year: 2020
  • Biodegradable polyurethanes foam and foam fullerenes nanocomposite strips by one-shot moulding: Physicochemical and mechanical properties 📏🧪
    Materials Science in Semiconductor Processing 112, 105018
    Cited by: 26 Year: 2020
  • Functionalized iron oxide nanoparticles conjugate of multi-anchored Schiff’s base inorganic heterocyclic pendant groups: Cytotoxicity studies ⚛️💊
    Applied Surface Science 501, 143963
    Cited by: 23 Year: 2020
  • Tunable yellow–green emitting cyclotriphosphazene appended phenothiazine hydrazone hybrid material: Synthesis, characterisation, photophysical and electrochemical studies 🌈🔋
    New Journal of Chemistry 44 (31), 13401-13414
    Cited by: 12 Year: 2020
  • Biodegradable isocyanate-free polyurethane films via a noncatalytic route: facile modified polycaprolactone triol and biobased diamine as precursors ♻️🧫
    RSC Advances 13 (1), 309-319
    Cited by: 4 Year: 2023
  • Catalyzed and Non‐catalyzed Synthetic Approaches to Obtain Isocyanate‐free Polyurethanes 🔬🧩
    ChemistrySelect 8 (26), e202300921
    Cited by: 2 Year: 2023
  • A recent review of the synthesis of plant-derived iron oxide nanoparticles for metal ion removal 🌿🧲
    Inorganic Chemistry Communications, 112611
    Cited by: — Year: 2024
  • Utilizing Fungal Biodegradation for Valorisation of Lignocellulosic Waste Biomass and Its Diverse Applications 🍄♻️
    Applied Research
    Cited by: — Year: 2024
  • Biorenewable vegetable oil based nonisocyanate polyurethanes and nanocomposites; formulation, characterisation, biodegradation, anticorrosion and antifouling coatings 🌾🧴
    New Journal of Chemistry 48 (12), 5173-5185
    Cited by: — Year: 2024
  • CYCLOPHOSPHAZENE BASED HYBRID INORGANIC-ORGANIC MOLECULES AND NON-ISOCYANATE POLYURETHANES FOR SUSTAINABILITY 🔄🌍
    SRM Institute of Science and Technology Chennai
    Cited by: — Year: 2022

kamal Al jorani | Chemistry | Industry Impact Academic Award

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kamal Al jorani | Chemistry | Industry Impact Academic Award

Assist Prof Dr kamal Al jorani,Wasit University,Iraq

Assist. Prof. Dr. Kamal Rashid Al-Jorani is a renowned chemist specializing in organic, inorganic, and medicinal chemistry 🌟. He earned his PhD in Chemistry from the University of Mustansiriyah in 2019, focusing on benzimidazole derivatives. Dr. Al-Jorani is currently an Assistant Professor and Laboratory Head at the university’s Chemistry Department 🧪. His expertise includes heterocyclic compound synthesis, drug synthesis, and coordination chemistry 🔬. He has authored several notable publications, including works on novel heterocyclic compounds and their pharmacological properties 📚. Dr. Al-Jorani’s research contributions have significant implications in both academic and pharmaceutical fields 🌍.

Publication profile

Orcid

Education

Kamal Rashid Al-Jorani’s academic journey spans through prestigious institutions, primarily the University of Mustansiriyah. He attained his Doctor of Philosophy in Chemistry in 2019, focusing on the synthesis, characterization, and preliminary pharmacological study of Benzimidazole Derivatives. Prior to his doctoral degree, Al-Jorani earned a Master’s in Chemistry in 2010, delving into the stability and stability constant of complexes formation between imidazole derivatives and various metal ions through potentiometric methods. His foundational academic achievement includes a Bachelor’s in Chemistry from the University of Mustansiriyah in 2008.

 

Teaching

Kamal Rashid Al-Jorani holds the esteemed position of Assistant Professor, reflecting his dedication to academia and his expertise in the field of chemistry. Currently, he serves as a pivotal figure in the Chemistry Department, where he undertakes the role of Teaching and Lab Head. His responsibilities extend to overseeing the instruction and practical application of Organic Chemistry concepts to third-year students. Moreover, he assumes leadership as the Lab Head for the Laboratory of Organic Chemistry, further enriching the educational experience for aspiring chemists within the department. Through his roles, Al-Jorani contributes significantly to the development and enhancement of academic programs and laboratory practices.

Research focus

Kamal Rashid Al-Jorani is a researcher whose focus lies in medicinal and pharmaceutical chemistry. His work primarily centers on the synthesis and characterization of heterocyclic compounds, particularly those involving benzimidazole and imidazole derivatives. These compounds are often explored for their pharmacological potential and applications in areas such as drug synthesis and antibacterial activity. Additionally, he delves into coordination chemistry to study metal complexes, which has implications for solar cell technology and other material sciences applications. His diverse expertise bridges organic chemistry and inorganic chemistry, addressing both biological and material challenges. 🌿🔬💊🌟

Publication top notes

 10.1016/j.kjs.2024.100271

Synthesis, Characterization, and Implementations for Dye Solar Cell of New Hematite Nanoparticles Using Tetrasubstituted Imidazole Containing a Benzimidazole Moiety

Synthesis, Characterization, and Implementations for Dye Solar Cell of New Hematite Nanoparticles Using Tetrasubstituted Imidazole Containing a Benzimidazole Moiety

 10.1007/s11224-022-02069-w

Synthesis, Structure Elucidation, and Pharmacological Study of New Hydrazinylidene Derivatives Using Benzimidazole as a Scaffold

Synthesis and characterization of a novel benzimidazole derivative: Solvatochromic and acid-base indicator applications