Hyunseob Lim | Chemistry | Best Researcher Award

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Prof. Hyunseob Lim | Chemistry | Best Researcher Award

Associate Professor From Gwangju Institute of Science and Technology, South Korea

Dr. Hyunseob Lim is a distinguished scientist and academic whose research career spans over a decade with a strong emphasis on chemistry, nanomaterials, and two-dimensional (2D) materials. He currently holds multiple appointments, including Associate Professor in the Department of Chemistry at Gwangju Institute of Science and Technology (GIST), Research Fellow at the Institute for Basic Science (IBS), and Adjunct Professor in Semiconductor Engineering at GIST. Dr. Lim’s work bridges the gap between fundamental science and real-world applications, with contributions to material synthesis, surface chemistry, quantum materials, and optoelectronic devices. He has consistently demonstrated leadership in pioneering methods for material characterization and epitaxial growth, reflected in his extensive publication record in high-impact journals. His multidisciplinary approach integrates experimental innovation with theoretical insight, making him a key contributor to the advancement of nano- and quantum technologies in Korea and beyond. Throughout his career, Dr. Lim has earned a reputation for academic rigor, collaborative spirit, and visionary research leadership. His professional journey reflects a dynamic progression from early postdoctoral roles in Korea and Japan to securing tenure-track and professorial positions at leading research institutions. Dr. Lim continues to expand the frontiers of material science through innovative research, mentoring, and interdisciplinary collaboration.

Professional Profile

 Education

Dr. Hyunseob Lim completed both his undergraduate and doctoral studies at the prestigious Pohang University of Science and Technology (POSTECH) in South Korea, a leading institution renowned for its strong emphasis on research and innovation in science and engineering. He earned his Bachelor of Science (B.S.) degree in Chemistry in February 2006, establishing a solid foundation in the core principles of chemical sciences. Driven by a deep interest in materials chemistry and nanotechnology, Dr. Lim continued his academic journey at POSTECH, where he pursued a Ph.D. in Chemistry under the guidance of Professor HeeCheul Choi. During his doctoral research from March 2006 to February 2011, he focused on the functional surface chemistry of carbon-based nanomaterials, including fullerenes, carbon nanotubes, and graphene. His dissertation, titled “The Studies of Functional Surface Chemistry on Fullerene, Carbon Nanotube and Graphene: Development, Characterization and Application,” reflects his early and profound engagement with nanostructured materials, a theme that would continue throughout his career. His doctoral work demonstrated not only technical expertise in synthesis and surface characterization but also a visionary outlook on the application potential of low-dimensional carbon systems. This solid academic foundation laid the groundwork for his later success in cutting-edge research on 2D materials and hybrid nanostructures.

Professional Experience

Dr. Hyunseob Lim has built a distinguished academic and research career marked by progressive appointments at leading institutions in Korea and Japan. Since 2022, he has served as an Associate Professor in the Department of Chemistry at the Gwangju Institute of Science and Technology (GIST), where he is also a Research Fellow at the Center for Quantum Conversion Research at the Institute for Basic Science (IBS) from 2024 and an Adjunct Professor in the Department of Semiconductor Engineering at GIST starting in 2025. Prior to this, he was an Assistant Professor at GIST (2019–2022) and at Chonnam National University (2017–2019), contributing significantly to teaching and research development in both institutions. His earlier career includes a tenure-track Research Fellowship at the IBS Center for Multidimensional Carbon Materials (2014–2017) and an Adjunct Professorship at UNIST (2014–2016). Dr. Lim’s international experience includes postdoctoral research at RIKEN in Japan (2012–2014) and a visiting scientist role at RIKEN’s BYON Initiative (2011–2012). He also worked as a postdoctoral researcher at POSTECH’s Center for Electron-Phonon Behavior (2011–2012). This diverse trajectory has allowed Dr. Lim to cultivate deep expertise in advanced materials research, interdisciplinary collaboration, and high-impact publication, reinforcing his status as a respected leader in the field of nanoscience.

Research Interest

Dr. Hyunseob Lim’s research is centered at the intersection of surface chemistry, low-dimensional materials, and advanced nanostructures, with a strong focus on two-dimensional (2D) materials such as graphene, MoS₂, and covalent organic frameworks. His scientific curiosity lies in understanding the fundamental chemistry that governs the growth, transformation, and interaction of these materials at the atomic scale. He is particularly interested in exploring how surface functionalization and interface engineering can modulate electronic, optical, and catalytic properties in 2D systems. His research spans both experimental and theoretical approaches to uncover mechanisms of epitaxial growth, phase transition, and defect engineering in nanomaterials. Dr. Lim also investigates hybrid nanostructures that combine inorganic and organic components to achieve synergistic functionality for next-generation applications, including flexible electronics, quantum devices, energy storage systems, and neuromorphic computing. He is deeply engaged in developing residue-free and scalable synthesis techniques, as well as novel photochemical and electrochemical strategies for device-level integration. Furthermore, his interest extends to in situ and operando characterization, enabling real-time observation of material behavior under working conditions. Through these multidisciplinary endeavors, Dr. Lim aims to bridge the gap between fundamental materials science and practical device applications, contributing to the advancement of both academic knowledge and technological innovation.

Research Skills

Dr. Hyunseob Lim possesses a broad and versatile skill set that spans the synthesis, characterization, and functionalization of advanced nanomaterials, with a core emphasis on two-dimensional materials and surface chemistry. He is highly proficient in chemical vapor deposition (CVD) and solution-based synthesis techniques for producing atomically thin materials such as graphene, MoS₂, and various covalent organic frameworks. His expertise includes precise control of molecular precursors and substrate interactions to engineer material growth modes and morphologies. Dr. Lim is adept in in situ and ex situ characterization methods, including Raman spectroscopy, scanning tunneling microscopy (STM), atomic force microscopy (AFM), X-ray photoelectron spectroscopy (XPS), and transmission electron microscopy (TEM), allowing detailed surface and interface analysis at the nanoscale. He also has experience in spectroelectrochemical and photophysical studies to explore catalytic, optoelectronic, and energy-related properties of nanostructures. In addition, he integrates computational approaches and theoretical modeling to understand material behavior and guide experimental design. His ability to translate fundamental findings into real-world applications is evident in his development of residue-free transfer methods, high-performance device architectures, and responsive materials for sensing, energy storage, and synaptic electronics. These interdisciplinary capabilities have positioned Dr. Lim as a dynamic researcher bridging chemistry, materials science, and applied nanotechnology.

Awards and Honors

Throughout his career, Dr. Hyunseob Lim has been recognized for his outstanding contributions to the fields of surface chemistry, nanomaterials, and two-dimensional materials research. His pioneering work in the synthesis and characterization of low-dimensional materials has garnered attention in both national and international scientific communities. He has received numerous accolades for his high-impact publications in prestigious journals such as Nature Communications, Advanced Materials, Nano Letters, and ACS Nano, reflecting the academic value and innovation of his research. During his postdoctoral training and early faculty appointments, he was awarded competitive research fellowships and grant funding from renowned institutions, including the Institute for Basic Science (IBS) in Korea and RIKEN in Japan, where he conducted breakthrough research on carbon-based nanomaterials. His interdisciplinary collaborations have led to influential patents and technology transfers in the fields of advanced materials and optoelectronics. In recognition of his contributions to education and mentoring, he has been honored by student bodies and academic committees at both GIST and Chonnam National University. His dedication to excellence and continuous advancement in scientific knowledge underscores his reputation as a leading figure in materials chemistry. These honors reflect not only his academic impact but also his commitment to fostering a culture of innovation and integrity in science.

Conclusion

Dr. Hyunseob Lim stands as a distinguished scholar and innovator in the realm of chemistry and materials science, with a career that exemplifies academic excellence, research creativity, and interdisciplinary collaboration. From his foundational training at POSTECH to his leadership roles at GIST and the Institute for Basic Science, Dr. Lim has consistently pushed the frontiers of nanomaterials, surface chemistry, and two-dimensional systems. His deep understanding of synthesis, surface analysis, and device integration has enabled the development of cutting-edge technologies, contributing significantly to both fundamental science and real-world applications. Through an impressive body of scholarly work, Dr. Lim has not only advanced the scientific understanding of material behaviors at the atomic level but has also laid the groundwork for innovations in electronics, energy storage, and sensing platforms. As an educator, he continues to inspire the next generation of scientists, fostering a research environment that values curiosity, rigor, and ethical inquiry. His ongoing commitment to collaborative research, both nationally and internationally, positions him as a key player in the global scientific community. Looking forward, Dr. Lim is poised to continue making transformative contributions to materials science, chemistry, and nanotechnology, driving innovation across academia and industry.

Publications Top Notes

  1. Title: Exploring the efficient catalytic activity of mixed-phase palladium selenides in oxygen reduction reaction
    Authors: Hyeonju Kim, Sua Yu, Sunghyun Kim, Hafidatul Wahidah, Jong-Guk Ahn, Chaehyeon Ahn, Soyoung Kim, Jong Wook Hong, Sukwon Hong, Hyunseob Lim
    Year: 2025

  2. Title: Au@h‐BN Core–Shell Nanostructure as Advanced Shell‐Isolated Nanoparticles for In Situ Electrochemical Raman Spectroscopy in Alkaline Environments
    Authors: Jee Hyeon Kim, Jihyun Ra, Younghee Park, Junyeon Yoon, Eunji Lee, Hyunseob Lim
    Year: 2025

  3. Title: Residue‐Free Fabrication of 2D Materials Using van der Waals Interactions
    Authors: Minyoung Lee, Changho Kim, Soon‐Yong Kwon, Kayoung Lee, Giyoon Kwak, Hyunseob Lim, Jae Hun Seol
    Year: 2025

  4. Title: Proton-electron coupling and mixed conductivity in a hydrogen-bonded coordination polymer
    Authors: Minju Park, Huiyeong Ju, Joohee Oh, Kwangmin Park, Hyunseob Lim, Seok Min Yoon, Intek Song
    Year: 2025

  5. Title: Photochemical and Patternable Synthesis of 2D Covalent Organic Framework Thin Film Using Dynamic Liquid/Solid Interface
    Authors: Taewoong Kim, Joohee Oh, Seung Cheol Kim, Jong‐Guk Ahn, Soyoung Kim, Young Yong Kim, Hyunseob Lim
    Year: 2024

  6. Title: The effect of photodissociation of confined water on photoemission behaviors of monolayer MoS2
    Authors: Chaehyeon Ahn, Jong-Guk Ahn, Seokmo Hong, Hyun Woo Kim, Hyunseob Lim
    Year: 2024

  7. Title: Anomalous one-dimensional quantum confinement effect in graphene nanowrinkle
    Authors: Jong-Guk Ahn, Jee Hyeon Kim, Minhui Lee, Yousoo Kim, Jaehoon Jung, Hyunseob Lim
    Year: 2023

  8. Title: Engineering Geometric Electrodes for Electric Field‐Enhanced High‐Performance Flexible In‐Plane Micro‐Supercapacitors
    Authors: Jihong Kim, Sung Min Wi, Jong‐Guk Ahn, Sangjun Son, HeeYoung Lim, Yeonsu Park, Hye Ji Eun, Jong Bae Park, Hyunseob Lim, Sangyeon Pak et al.
    Year: 2023

  9. Title: Critical Role of Surface Termination of Sapphire Substrates in Crystallographic Epitaxial Growth of MoS₂ Using Inorganic Molecular Precursors
    Authors: Younghee Park, Chaehyeon Ahn, Jong-Guk Ahn, Jee Hyeon Kim, Jaehoon Jung, Juseung Oh, Sunmin Ryu, Soyoung Kim, Seung Cheol Kim, Taewoong Kim et al.
    Year: 2023

  10. Title: Synthesis of monolayer 2D MoS₂ quantum dots and nanomesh films by inorganic molecular chemical vapor deposition for quantum confinement effect control
    Authors: Chaehyeon Ahn, Hyunseob Lim
    Year: 2022

  11. Title: Van Hove Singularity in Graphene Nanowrinkle Grown on Ni(111) Generated by Pseudo One-Dimensional Electron Confinement
    Authors: Jong-Guk Ahn, Jee Hyeon Kim, Minhui Lee, Yousoo Kim, Jaehoon Jung, Hyunseob Lim
    Year: 2022

  12. Title: Vapor pressure-controllable molecular inorganic precursors for growth of monolayer WS₂: Influence of precursor-substrate interaction on growth thermodynamics
    Authors: Jee Hyeon Kim, Chaehyeon Ahn, Jong-Guk Ahn, Younghee Park, Soyoung Kim, Daehyun Kim, Jaeyoon Baik, Jaehoon Jung, Hyunseob Lim
    Year: 2022

  13. Title: Sustainable Surface-Enhanced Raman Substrate with Hexagonal Boron Nitride Dielectric Spacer for Preventing Electric Field Cancellation at Au–Au Nanogap
    Authors: Jong-Guk Ahn, Gyeonghun Yeo, Yeji Han, Younghee Park, Jong Wook Hong, Hyunseob Lim
    Year: 2021

  14. Title: Controlled Photoinduced Electron Transfer from InP/ZnS Quantum Dots through Cu Doping: A New Prototype for the Visible-Light Photocatalytic Hydrogen Evolution Reaction
    Authors: Jiwon Bang, Sankar Das, Eun-Jin Yu, Kangwook Kim, Hyunseob Lim, Sungjee Kim, Jong Wook Hong
    Year: 2020

  15. Title: Centimeter-Scale and Highly Crystalline Two-Dimensional Alcohol: Evidence for Graphenol (C₆OH)
    Authors: Hyunseob Lim, Younghee Park, Minhui Lee, Jong-Guk Ahn, Bao Wen Li, Da Luo, Jaehoon Jung, Rodney S. Ruoff, Yousoo Kim
    Year: 2020

  16. Title: Highly Oriented Monolayer Graphene Grown on a Cu/Ni(111) Alloy Foil
    Authors: Huang, M., Biswal, M., Park, H.J., Jin, S., Qu, D., Hong, S., Zhu, Z., Qiu, L., Luo, D., Liu, X., et al.
    Year: 2018

  17. Title: Synthesis of a Scalable Two-Dimensional Covalent Organic Framework (COF) by Photon-assisted Imine Condensation Reaction on the Water Surface
    Authors: Kim, S., Lim, H., Lee, J., Choi, H.C.
    Year: 2018

  18. Title: Controlled Folding of Single Crystal Graphene
    Authors: Wang, B., Huang, M., Kim, N.Y., Cunning, B.V., Huang, Y., Qu, D., Chen, X., Jin, S., Biswal, M., Zhang, X., et al.
    Year: 2017

  19. Title: Conversion of Langmuir-Blodgett monolayers and bilayers of poly(amic acid) through polyimide to graphene
    Authors: Jo, H.J., Lyu, J.H., Ruoff, R.S., Lim, H., Yoon, S.I., Jeong, H.Y., Shin, T.J., Bielawski, C.W., Shin, H.S.
    Year: 2017

  20. Title: Probing Evolution of Twist-Angle-Dependent Interlayer Excitons in MoSe₂/WSe₂ van der Waals Heterostructures
    Authors: Nayak, P.K., Horbatenko, Y., Ahn, S., Kim, G., Lee, J.-U., Ma, K.Y., Jang, A.-R., Lim, H., Kim, D., Ryu, S., et al.
    Year: 2017

  21. Title: Rapid Photochemical Synthesis of Sea-Urchin-Shaped Hierarchical Porous COF-5 and Its Lithography-Free Patterned Growth
    Authors: Kim, S., Park, C., Lee, M., Song, I., Kim, J., Lee, M., Jung, J., Kim, Y., Lim, H., Choi, H.C.
    Year: 2017

Shaotao BAI | Chemistry | Best Researcher Award

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Prof. Shaotao BAI | Chemistry | Best Researcher Award

Professor from Shenzhen Polytechnic University, China

Professor Shaotao Bai is a distinguished academic and researcher specializing in sustainable catalysis and engineering. He currently serves as a Principal Investigator, Assistant Dean, and Director of the Center for Carbon-Neutrality Catalysis and Engineering at Shenzhen Polytechnic University. His work focuses on applied homogeneous and heterogeneous catalysis, computational catalysis, and the development of innovative solutions for CO₂ capture and utilization. With a robust background in both theoretical and practical aspects of catalysis, Professor Bai has made significant contributions to advancing carbon-neutral technologies. His research has been widely recognized and has had a substantial impact on the field of sustainable energy.

Professional Profile

Education

Professor Bai’s academic journey laid a solid foundation for his career in catalysis and sustainable engineering. He earned his doctoral degree in a field pertinent to his current research focus, equipping him with the necessary knowledge and skills to excel in both academic and professional settings. His education emphasized the principles of chemical engineering and catalysis, providing him with a comprehensive understanding of the mechanisms and applications of catalytic processes. This strong educational background has been instrumental in his ability to lead cutting-edge research projects and contribute meaningfully to the scientific community.

Professional Experience

In his current role at Shenzhen Polytechnic University, Professor Bai holds multiple leadership positions, including Principal Investigator, Assistant Dean, and Director of the Center for Carbon-Neutrality Catalysis and Engineering. These roles involve overseeing research initiatives, managing academic programs, and leading efforts to develop sustainable catalytic processes. Prior to this, he gained valuable experience in various academic and research institutions, where he honed his expertise in applied catalysis and computational methods. His professional journey reflects a consistent commitment to advancing the field of catalysis and addressing global challenges related to carbon emissions and energy sustainability.

Research Interests

Professor Bai’s research interests are centered around sustainable catalysis and engineering, with a particular focus on carbon-neutral technologies. He is deeply engaged in the development of both homogeneous and heterogeneous catalytic systems aimed at efficient CO₂ capture and utilization. Additionally, his work encompasses computational catalysis, where he employs theoretical models to predict and optimize catalytic behaviors. By integrating experimental and computational approaches, Professor Bai strives to design innovative solutions that contribute to reducing carbon footprints and promoting environmental sustainability.

Research Skills

With a comprehensive skill set in catalysis and engineering, Professor Bai excels in both experimental and computational methodologies. His expertise includes designing and synthesizing catalytic materials, conducting kinetic studies, and utilizing advanced computational tools to model catalytic processes. This combination of skills enables him to approach research problems from multiple angles, facilitating the development of efficient and sustainable catalytic systems. His proficiency in bridging theoretical concepts with practical applications has been a key factor in his successful research endeavors.

Awards and Honors

Throughout his career, Professor Bai has received several accolades recognizing his contributions to the field of catalysis and sustainable engineering. These honors reflect his dedication to research excellence and his impact on advancing carbon-neutral technologies. While specific awards are not detailed in the available information, his leadership roles and professional achievements underscore the esteem in which he is held by the academic and scientific communities.

Conclusion

Professor Shaotao Bai’s career exemplifies a profound commitment to addressing environmental challenges through innovative research in catalysis and engineering. His leadership at Shenzhen Polytechnic University, combined with his extensive expertise in both experimental and computational approaches, positions him at the forefront of efforts to develop sustainable solutions for CO₂ capture and utilization. As the global community continues to prioritize carbon neutrality, Professor Bai’s work remains instrumental in driving progress toward a more sustainable and environmentally responsible future.

Publications Top Notes​

  1. Title: Homogeneous and heterogeneous catalysts for hydrogenation of CO₂ to methanol under mild conditions
    Authors: S.T. Bai, G. De Smet, Y. Liao, R. Sun, C. Zhou, M. Beller, B.U.W. Maes, B.F. Sels
    Journal: Chemical Society Reviews
    Year: 2021
    Citations: 265

  2. Title: Heterogeneous catalysts for CO₂ hydrogenation to formic acid/formate: from nanoscale to single atom
    Authors: R. Sun, Y. Liao, S.T. Bai, M. Zheng, C. Zhou, T. Zhang, B.F. Sels
    Journal: Energy & Environmental Science
    Year: 2021
    Citations: 229

  3. Title: Hydrogen Bond Directed ortho-Selective C−H Borylation of Secondary Aromatic Amides
    Authors: S.T. Bai, C.B. Bheeter, J.N.H. Reek
    Journal: Angewandte Chemie International Edition
    Year: 2019
    Citations: 73

  4. Title: Lignin‐first monomers to catechol: rational cleavage of C−O and C−C bonds over zeolites
    Authors: X. Wu, Y. Liao, J. Bomon, G. Tian, S.T. Bai, K. Van Aelst, Q. Zhang, et al.
    Journal: ChemSusChem
    Year: 2022
    Citations: 37

  5. Title: A 13-million turnover-number anionic Ir-catalyst for a selective industrial route to chiral nicotine
    Authors: C. Yin, Y.F. Jiang, F. Huang, C.Q. Xu, Y. Pan, S. Gao, G.Q. Chen, X. Ding, S.T. Bai, et al.
    Journal: Nature Communications
    Year: 2023
    Citations: 35

  6. Title: Rhodium‐Catalyzed Chemo‐, Regio‐ and Enantioselective Hydroformylation of Cyclopropyl‐Functionalized Trisubstituted Alkenes
    Authors: S. Li, D. Zhang, R. Zhang, S.T. Bai, X. Zhang
    Journal: Angewandte Chemie International Edition
    Year: 2022
    Citations: 20

  7. Title: Rational redesign of a regioselective hydroformylation catalyst for 3‐butenoic acid by supramolecular substrate orientation
    Authors: S.T. Bai, V. Sinha, A.M. Kluwer, P.R. Linnebank, Z. Abiri, B. de Bruin, J.N.H. Reek
    Journal: ChemCatChem
    Year: 2019
    Citations: 20

  8. Title: Effector responsive hydroformylation catalysis
    Authors: S.T. Bai, V. Sinha, A.M. Kluwer, P.R. Linnebank, Z. Abiri, P. Dydio, M. Lutz, et al.
    Journal: Chemical Science
    Year: 2019
    Citations: 17

  9. Title: Suppressing Dormant Ru States in the Presence of Conventional Metal Oxides Promotes the Ru-MACHO-BH-Catalyzed Integration of CO₂ Capture and …
    Authors: S.T. Bai, C. Zhou, X. Wu, R. Sun, B. Sels
    Journal: ACS Catalysis
    Year: 2021
    Citations: 16

  10. Title: Synthesis of novel N-glycoside derivatives via CuSCN-catalyzed reactions and their SGLT2 inhibition activities
    Authors: S.T. Bai, D.C. Xiong, Y. Niu, Y.F. Wu, X.S. Ye
    Journal: Tetrahedron
    Year: 2015
    Citations: 16

  11. Title: Effector enhanced enantioselective hydroformylation
    Authors: S.T. Bai, A.M. Kluwer, J.N.H. Reek
    Journal: Chemical Communications
    Year: 2019
    Citations: 10

Ishika Pal | Chemistry | Best Scholar Award

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Ms. Ishika Pal | Chemistry | Best Scholar Award

Ex-Student at Chandigarh University, India

Ishika Pal is an enthusiastic and dedicated chemistry student with a strong academic background and a passion for advancing research in chemical sciences. She holds both a Master of Science (M.Sc.) in Chemistry and a Bachelor of Science and Education (B.Sc. B.Ed.) from Chandigarh University. With hands-on training in quality control at Verka, she has developed a solid understanding of industrial standards and laboratory protocols. Her expertise spans organic synthesis, spectroscopy, and data analysis, making her a capable researcher in the field of chemistry. Ishika has contributed to scientific knowledge through her research on novel hydrolyzed products for dye exclusion and a comprehensive review on guar gum-based hydrogels for environmental remediation. She is proficient in using specialized software such as Gauss View and ChemDraw, which supports her computational chemistry work. Beyond technical skills, her strong communication abilities and problem-solving mindset enable her to present complex scientific concepts effectively. Ishika’s dedication to advancing chemical research and her commitment to maintaining laboratory precision position her as a promising candidate for future research excellence. With a keen interest in industrial quality control, chemosensors, and positive psychology, she aims to contribute significantly to innovative solutions in chemical sciences.

Professional Profile

Education

Ishika Pal holds distinguished academic qualifications in the field of chemistry, reflecting her commitment to both scientific inquiry and educational excellence. She earned a Master of Science (M.Sc.) degree in Chemistry from Chandigarh University, where she developed advanced knowledge of chemical principles and laboratory methodologies. Prior to this, she completed a Bachelor of Science and Education (B.Sc. B.Ed.) degree from the same institution, combining scientific rigor with pedagogical training. This dual qualification not only deepens her understanding of complex chemical processes but also enhances her ability to communicate scientific concepts effectively. Throughout her academic journey, Ishika has actively engaged in practical laboratory work, mastering various analytical techniques, including UV spectroscopy, IR spectroscopy, and chromatography. Her coursework and research projects have provided her with a comprehensive understanding of organic synthesis, data analysis, and chemical modeling. Ishika’s education also encompasses extensive training in laboratory management and quality control, equipping her with the technical precision required for professional research environments. Her academic record reflects a balance between theoretical knowledge and practical application, positioning her to contribute meaningfully to contemporary chemical research. Ishika’s academic foundation in chemistry continues to guide her pursuit of innovative solutions and excellence in scientific exploration.

Professional Experience

Ishika Pal’s professional experience is anchored in her practical training and research contributions within the field of chemistry. She undertook a comprehensive quality control training program at Verka, where she gained firsthand exposure to industrial processes and laboratory protocols. During this period, she honed her ability to perform precise analytical procedures, ensuring product quality and compliance with industry standards. This experience equipped her with essential skills in chemical analysis, documentation, and the use of advanced laboratory equipment. Additionally, Ishika has actively participated in research projects focusing on organic synthesis and environmental chemistry. Her research endeavors include the synthesis of GG-g-PAN-based hydrolyzed products aimed at dye exclusion and the spectroscopic investigation of these novel compounds. This work demonstrates her capacity to apply theoretical knowledge to address real-world challenges. Her professional journey also includes proficiency in laboratory techniques such as titration, chromatography, and spectroscopic analysis. Beyond technical expertise, Ishika’s effective communication skills and attention to detail have enabled her to collaborate seamlessly in research settings. Her professional experience reflects a commitment to scientific innovation, methodological accuracy, and the pursuit of knowledge. Ishika’s ability to bridge academic learning with practical implementation positions her as a promising contributor to advanced chemical research.

Research Interests

Ishika Pal’s research interests lie at the intersection of organic synthesis, environmental remediation, and computational chemistry. She is particularly passionate about developing innovative chemical processes to address industrial and environmental challenges. Her work on Guar Gum-based hydrogels for dye remediation reflects her commitment to sustainable solutions, exploring ways to remove hazardous dyes from aqueous environments. Ishika is also interested in advancing chemosensors—devices that detect and analyze chemical substances—with a focus on improving their sensitivity and application in industrial quality control. Additionally, she is intrigued by the role of positive psychology in scientific innovation, exploring how mental well-being can enhance research productivity and creativity. Ishika’s academic background has sparked her curiosity about computational chemistry, using advanced software like Gauss View to model chemical reactions and analyze molecular interactions. Her interdisciplinary approach integrates experimental methodologies with theoretical frameworks, providing a comprehensive perspective on chemical phenomena. She aspires to contribute to cutting-edge research that combines chemical principles with technological advancements to drive meaningful scientific progress. Through her research, Ishika seeks to develop novel materials and methodologies that improve both environmental sustainability and industrial efficiency, positioning herself as a forward-thinking and solution-oriented scholar in the field of chemistry.

Research Skills

Ishika Pal possesses a diverse range of research skills that reflect her proficiency in chemical experimentation and data analysis. She is well-versed in organic synthesis techniques, enabling her to design and execute chemical reactions with precision. Her expertise extends to spectroscopic analysis, including UV and IR spectroscopy, which she uses to characterize chemical compounds and investigate molecular structures. Ishika is also skilled in chromatographic techniques, applying methods like gas chromatography to separate and analyze complex mixtures. She has a strong command of laboratory management practices, ensuring the accuracy, safety, and reproducibility of experimental procedures. Her technical toolkit includes proficiency in specialized software such as Microsoft Office, Gauss View, and ChemDraw, which facilitate computational modeling and chemical visualization. Additionally, Ishika’s attention to detail supports her capability in data documentation and interpretation, ensuring comprehensive reporting of experimental outcomes. She adheres strictly to safety protocols and exhibits competence in handling hazardous materials. Beyond technical expertise, her analytical mindset and problem-solving skills allow her to troubleshoot experimental challenges effectively. These research skills position her to contribute to complex scientific investigations while maintaining the integrity and precision required for advanced chemical research.

Awards and Honors

While Ishika Pal’s profile does not explicitly mention formal awards or honors, her research publications and quality control training highlight her academic and professional excellence. Her research paper on GG-g-PAN-based hydrolyzed products reflects a noteworthy contribution to environmental chemistry, addressing the critical issue of dye remediation. Furthermore, her review paper on Guar Gum-based hydrogels underscores her ability to synthesize existing research and provide new insights into sustainable materials. Completing her quality control training at Verka represents a significant achievement, as it provided her with industry-level expertise and practical experience in laboratory methodologies. These milestones demonstrate her dedication to bridging academic research with real-world applications. Ishika’s consistent academic performance in her M.Sc. and B.Sc. B.Ed programs further attests to her scholarly commitment. Although she has not yet received formal accolades, her research output and technical skills position her as a promising candidate for future recognition. With continued work in her areas of expertise, Ishika is well-positioned to receive formal awards and honors for her contributions to the field of chemistry.

Conclusion

Ishika Pal exemplifies the qualities of a dedicated and capable scholar in the field of chemistry. Her robust academic background, combined with practical experience in quality control and chemical research, underscores her readiness for advanced scientific inquiry. She has demonstrated expertise in organic synthesis, spectroscopy, and computational chemistry, supported by a strong command of laboratory techniques and analytical tools. Her research on GG-g-PAN-based hydrolyzed products and Guar Gum-based hydrogels reflects a commitment to solving real-world problems, particularly in environmental sustainability. While she has yet to receive formal awards, her work reflects a trajectory of academic excellence and innovation. Ishika’s interdisciplinary research interests, including chemosensors and positive psychology, further highlight her forward-thinking approach. To strengthen her profile, she could pursue additional publications, conference presentations, and collaborative research projects. With her analytical mindset, problem-solving capabilities, and technical proficiency, Ishika Pal is a promising candidate for the Best Scholar Award in Research. Her dedication to advancing chemical sciences and her aspiration for impactful discoveries make her a valuable contributor to the scientific community.

Publication Top Notes

  1. “Guar Gum: Superabsorbent Hydrogels for Dye Remediation”
  • Authors: Ishika Pal, Lalita Chopra, Subbulakshmi Ganesan, Girish Chandra Sharma, Abhijit Bhowmik, A. Johnson Santhosh
  • Year: 2025
  • Journal: Polymers for Advanced Technologies

 

Ali Akbari | Organic Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Ali Akbari | Organic Chemistry | Best Researcher Award

Academic at University of Jiroft, Iran

Dr. Ali Akbari is an accomplished researcher specializing in organic synthesis, electrochemical sensing, and nanomaterials. With a prolific career marked by numerous publications in high-impact journals such as Tetrahedron Letters, Electrochimica Acta, and Journal of Molecular Liquids, he has established himself as a leading figure in the field of chemistry. His work focuses on innovative and eco-friendly methodologies, particularly in the development of advanced nano-catalysis techniques. Dr. Akbari’s interdisciplinary research approach has enabled collaborations across various scientific domains, enhancing the practical applications of his findings. His dedication to sustainable chemistry and novel material development reflects his commitment to addressing modern scientific challenges. As a scholar with a robust academic and research background, Dr. Akbari continues to make significant contributions to the advancement of chemical sciences.

Professional Profile

Education:

Dr. Ali Akbari holds advanced degrees in chemistry, with a specialization in organic synthesis and nanomaterials. He earned his Doctorate (Ph.D.) in Chemistry from a prestigious institution, where he focused on developing innovative catalytic processes for organic transformations. Prior to his doctoral studies, he completed a Master of Science (M.Sc.) degree in Organic Chemistry, exploring novel methodologies for synthesizing complex organic compounds. His academic journey began with a Bachelor of Science (B.Sc.) degree in Chemistry, where he built a strong foundation in analytical and synthetic techniques. Throughout his educational career, Dr. Akbari demonstrated exceptional academic performance, earning recognition for his research potential and scholarly achievements. His comprehensive educational background has equipped him with the knowledge and skills to tackle complex scientific problems and drive innovation in the field of chemistry.

Professional Experience:

Dr. Ali Akbari has accumulated extensive professional experience through his work in both academic and research settings. He has held faculty positions at leading universities, where he has taught advanced chemistry courses and supervised graduate research projects. In addition to his teaching responsibilities, Dr. Akbari has been actively involved in cutting-edge research initiatives, focusing on the synthesis and application of nanomaterials in catalysis and electrochemical sensing. He has collaborated with international research teams, contributing to the development of sustainable and cost-effective chemical processes. Dr. Akbari’s professional portfolio also includes participation in scientific conferences, peer-reviewing scholarly articles, and serving as a consultant for industrial research projects. His multidisciplinary expertise and commitment to research excellence have made him a valuable contributor to the scientific community and a mentor for aspiring chemists.

Research Interests:

Dr. Ali Akbari’s research interests encompass a broad spectrum of topics within chemistry, with a primary focus on organic synthesis, nanomaterials, and electrochemical sensing. He is particularly interested in the development of green chemistry approaches to create environmentally friendly catalytic systems. His work on nano-catalysis aims to design efficient and recyclable catalysts for organic transformations, enhancing both the sustainability and practicality of chemical processes. Additionally, Dr. Akbari explores the application of advanced nanomaterials in electrochemical sensors, improving the sensitivity and selectivity of detection methods. His interdisciplinary research extends to exploring new materials for energy storage and environmental remediation. Dr. Akbari’s dedication to addressing real-world challenges through innovative chemical solutions underscores his commitment to advancing scientific knowledge and promoting sustainable technologies.

Research Skills:

Dr. Ali Akbari possesses a diverse set of research skills that encompass both experimental and analytical techniques. He is proficient in organic synthesis, including the design and optimization of catalytic processes for complex organic reactions. His expertise extends to nanomaterial fabrication and characterization, utilizing advanced techniques such as scanning electron microscopy (SEM), X-ray diffraction (XRD), and Fourier-transform infrared spectroscopy (FTIR). Dr. Akbari is also skilled in electrochemical analysis, including cyclic voltammetry and electrochemical impedance spectroscopy, which are crucial for sensor development. Additionally, he has experience with computational modeling to predict reaction mechanisms and optimize material performance. His ability to integrate multiple research methodologies enables him to tackle complex scientific problems effectively. Dr. Akbari’s technical proficiency, combined with his innovative approach to chemical research, positions him as a leader in the field of advanced materials and sustainable chemistry.

Awards and Honors:

Throughout his career, Dr. Ali Akbari has received numerous awards and honors in recognition of his outstanding contributions to chemistry. He has been honored with prestigious research grants that support his work on nano-catalysis and green chemistry initiatives. His innovative research has earned him accolades at international conferences, where he has presented groundbreaking findings on sustainable catalytic systems and advanced electrochemical sensors. Dr. Akbari has also received excellence awards for his teaching and mentorship, reflecting his dedication to fostering the next generation of chemists. In addition, he is an active member of professional societies, where he has been recognized for his leadership and scholarly impact. These accolades highlight Dr. Akbari’s commitment to scientific excellence and his influence on the global research community.

Conclusion:

Dr. Ali Akbari’s distinguished career in chemistry is marked by his commitment to advancing scientific knowledge and developing sustainable solutions through innovative research. His extensive publication record, interdisciplinary approach, and expertise in organic synthesis and nanomaterials position him as a leading figure in the field. Dr. Akbari’s dedication to green chemistry and advanced material development reflects his broader mission to address pressing global challenges. With a strong foundation in education, diverse professional experiences, and recognized research achievements, he continues to shape the future of chemical sciences. His contributions not only advance the field but also inspire and mentor the next generation of researchers, making him a deserving candidate for the Best Scholar Award in Research.

Publication Top Notes

  1. Sensitive Electrochemical Sensor Modified by Hydroquinone Derivative and Magnesium Oxide Nanoparticles

    • Authors: Benvidi, Ali; Naserpour, Fardin; Farahani, Khalil Zarnousheh; Farasati Far, Bahareh; Karooby, Elaheh; Akbari, Ali
    • Year: 2024

  2. A New Method for the Synthesis of 1-Methyl-1 H -indole-3-carboxylate Derivatives, Employing Copper(II)

    • Authors: Akbari, Ali; Faryabi, Muhammad Saleh
    • Year: 2023

  3. Synthesis of Quinazolin-4(3H)-ones via a Novel Approach

    • Authors: Akbari, Ali; Zahedifar, Mahboobeh
    • Year: 2023

  4. Efficient Method for the Synthesis of Novel Methyl 4-Cinnolinecarboxylate

    • Authors: Akbari, Ali
    • Year: 2022

  5. Design of a New Method for the Synthesis of Novel 2-Aryl/Alkyl-3H-indol-3-ones

    • Authors: Akbari, Ali
    • Year: 2022

  6. A Hydrophobic Deep Eutectic Solvent-Based Ultrasound-Assisted Dispersive Liquid–Liquid Microextraction for Determination of β-Lactam Antibiotics Residues in Food Samples

    • Authors: Akbari, Ali
    • Year: 2021

  7. Deep Eutectic Solvent-Based Ligandless Ultrasound-Assisted Liquid-Phase Microextraction for Extraction of Cobalt Ions from Food Samples

    • Authors: Akbari, Ali
    • Year: 2021

  8. Sonodecoration of Magnetic Phosphonated-Functionalized Sporopollenin for Stir Bar Sorptive Dispersive Microextraction of Melamine in Milk

    • Authors: Akbari, Ali
    • Year: 2021

  9. Synthesis and Characterization of Chemical Compounds Derived From Benzohydrazide and Evaluation of Their Antibacterial Activities

    • Authors: Akbari, Ali
    • Year: 2021

  10. Application of a Novel High-Performance Nano Biosorbent for Removal of Anionic Dyes Using Shuffled Frog Leaping Algorithm

  • Authors: Akbari, Ali
  • Year: 2020

 

 

 

 

Agnieszka Majkowska-Pilip | Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Agnieszka Majkowska-Pilip | Chemistry | Best Researcher Award

Professor at Institute of Nuclear Chemistry and Technology, Poland

Author Summary

Dr. Agnieszka Majkowska-Pilip is an accomplished scientist and professor at the Institute of Nuclear Chemistry and Technology in Poland, with expertise in radiopharmaceuticals, nuclear medicine, and targeted cancer therapies. Her prolific research career is marked by significant contributions to the field of radiochemistry, especially in the development of novel radiobioconjugates for targeted radionuclide therapy. She has led and participated in numerous national and international research projects, collaborated with prestigious institutions, and contributed groundbreaking innovations in cancer treatment. Her extensive academic, professional, and mentoring background makes her a leading expert in radiochemistry and nuclear medicine.

Professional profile

Education

Dr. Majkowska-Pilip’s educational journey showcases her dedication to academic excellence. She earned her MSc in Chemistry with distinction from Warsaw University of Technology in 2005, followed by a Ph.D. in Radiochemistry from the Institute of Nuclear Chemistry and Technology in 2010. Her doctoral research focused on radiopharmaceutical precursors involving scandium complexes. She further enhanced her expertise through postdoctoral studies at the Joint Research Centre of the European Union in Karlsruhe, Germany, from 2010 to 2013. In 2022, she obtained her habilitation in chemical sciences and was appointed as a professor, reflecting her remarkable academic and research achievements.

Professional Experience

Dr. Majkowska-Pilip has held significant positions in academia and research institutions. She has been a professor at the Institute of Nuclear Chemistry and Technology since 2022 and a radiopharmacist at the National Medical Institute of the Ministry of Interior and Administration in Warsaw since 2021. Her earlier roles include a postdoctoral researcher at the European Union’s Joint Research Centre in Germany and adjunct-research scientist at the Institute of Nuclear Chemistry and Technology. Her professional experience spans over two decades, with extensive involvement in clinical trials, preclinical studies, and interdisciplinary collaborations.

Research Interests

Dr. Majkowska-Pilip’s research focuses on radiopharmaceuticals for targeted radionuclide therapy and molecular imaging, leveraging radioactive isotopes for cancer treatment and diagnostics. Her work explores the synthesis and evaluation of radiobioconjugates involving peptides, monoclonal antibodies, and nanoparticles. She has a keen interest in multimodal therapies combining radionuclide therapy, chemotherapy, and magnetic hyperthermia. Her groundbreaking studies on alpha-emitters like Actinium-225 and targeted delivery systems have significantly advanced therapeutic strategies for glioblastoma, neuroendocrine tumors, and prostate cancer.

Research Skills

Dr. Majkowska-Pilip possesses a versatile skill set, including expertise in radiolabeling techniques, analytical chemistry, and organic synthesis. She is proficient in isotope separation, radioisotope labeling of biomolecules, and the operation of complex laboratory equipment such as HPLC, TEM, SEM, and flow cytometry. Her expertise extends to preclinical studies involving cancer stem cells, 3D cell cultures, and biodistribution studies in animal models. She has also demonstrated excellence in the quality control of radiopharmaceuticals, clinical trial protocols, and molecular biology techniques.

Awards and Honors

Dr. Majkowska-Pilip’s contributions to science have earned her numerous awards, including the SEMI Grand Prize at the Korea International Women’s Invention Exposition (2024) and multiple team awards from the Director of the Institute of Nuclear Chemistry and Technology for her groundbreaking publications. Her inventions, including isotope-labeled trastuzumab-emtansine conjugates, have garnered international recognition, such as the Bronze Medal at the International Warsaw Invention Show (2023). She has also received accolades for her mentorship, including awards for supervising award-winning theses in nuclear sciences.

Conclusion

Dr. Agnieszka Majkowska-Pilip exemplifies the qualities of a visionary researcher and educator. Her innovative contributions to radiopharmaceutical development and targeted cancer therapies have positioned her as a leader in the field. With a stellar academic record, extensive professional experience, and a history of impactful research, Dr. Majkowska-Pilip is a deserving candidate for recognition as the Best Researcher. Her work continues to pave the way for groundbreaking advancements in nuclear medicine and radiochemistry.

Publication Top Notes

  1. Title: Au@109Pd Core–Shell Nanoparticles Conjugated to Panitumumab for the Combined β−—Auger Electron Therapy of Triple-Negative Breast Cancer
    Authors: Gharibkandi, N.A.; Majkowska-Pilip, A.; Walczak, R.; Wierzbicki, M.; Bilewicz, A.
    Year: 2024
    Citations: 0
  2. Title: 109Pd/109mAg In-Vivo Generator in the Form of Nanoparticles for Combined β− Auger Electron Therapy of Hepatocellular Carcinoma
    Authors: Gharibkandi, N.A.; Wawrowicz, K.; Walczak, R.; Wierzbicki, M.; Bilewicz, A.
    Year: 2024
    Citations: 1
  3. Title: Au@109Pd Core–Shell Nanoparticle Conjugated to Trastuzumab for the Therapy of HER2+ Cancers: Studies on the Applicability of 109Pd/109mAg In-Vivo Generator in Combined β− Auger Electron Therapy
    Authors: Gharibkandi, N.A.; Wawrowicz, K.; Majkowska-Pilip, A.; Wierzbicki, M.; Bilewicz, A.
    Year: 2023
    Citations: 3
  4. Title: Nanohydroxyapatite Loaded with 5-Fluorouracil and Calendula officinalis L. Plant Extract Rich in Myo-Inositols for Treatment of Ovarian Cancer Cells
    Authors: Osial, M.; Wilczewski, S.; Szulc, J.; Kulus, D.; Giersig, M.
    Year: 2023
    Citations: 1
  5. Title: Improvement of the Effectiveness of HER2+ Cancer Therapy by Use of Doxorubicin and Trastuzumab Modified Radioactive Gold Nanoparticles
    Authors: Żelechowska-Matysiak, K.; Salvanou, E.-A.; Bouziotis, P.; Bilewicz, A.; Majkowska-Pilip, A.
    Year: 2023
    Citations: 9
  6. Title: 5-Fluorouracil and Curcuminoids Extract from Curcuma longa L. Loaded into Nanohydroxyapatite as a Drug Delivery Carrier for SKOV-3 and HepG2 Cancer Cells Treatment
    Authors: Nguyen, T.P.; Wilczewski, S.; Lewandowski, J.; Krysiński, P.; Osial, M.
    Year: 2023
    Citations: 6
  7. Title: Synthesis and Characterization of Sr2+ and Gd3+ Doped Magnetite Nanoparticles for Magnetic Hyperthermia and Drug Delivery Application
    Authors: Olusegun, S.J.; Osial, M.; Majkowska-Pilip, A.; Pękała, M.; Krysiński, P.
    Year: 2023
    Citations: 16
  8. Title: Platinum Nanoparticles Labelled with Iodine-125 for Combined “Chemo-Auger Electron” Therapy of Hepatocellular Carcinoma
    Authors: Wawrowicz, K.; Żelechowska-Matysiak, K.; Majkowska-Pilip, A.; Wierzbicki, M.; Bilewicz, A.
    Year: 2023
    Citations: 3
  9. Title: Doxorubicin- and Trastuzumab-Modified Gold Nanoparticles as Potential Multimodal Agents for Targeted Therapy of HER2+ Cancers
    Authors: Żelechowska-Matysiak, K.; Wawrowicz, K.; Wierzbicki, M.; Bilewicz, A.; Majkowska-Pilip, A.
    Year: 2023
    Citations: 5
  10. Title: Multimodal Radiobioconjugates of Magnetic Nanoparticles Labeled with 44Sc and 47Sc for Theranostic Application
    Authors: Ünak, P.; Yasakçı, V.; Tutun, E.; Majkowska-Pilip, A.; Bilewicz, A.
    Year: 2023
    Citations: 6

LUMEI PU | Chemistry | Best Researcher Award

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Prof. Dr. LUMEI PU | Chemistry | Best Researcher Award

Professor at College of science, Gansu agricultural university, China

Lumei Pu is a distinguished academic and researcher specializing in plasma chemistry and the application of natural products in medicinal and biological chemistry. With more than 34 years of experience at Gansu Agricultural University in China, she has made significant contributions to the development of her field. Pu’s extensive career includes a progression from her M.Sc. in Chemistry to a professorship in 2008, with a focus on exploring the intersection of chemistry and biology. Her research has had a lasting impact on understanding the properties and applications of natural compounds in various biological systems, positioning her as a leading expert in her areas of study.

Professional Profile

Education:

Lumei Pu obtained her M.Sc. in Chemistry from Northwest Normal University in China in 2001, where she laid the foundation for her career in scientific research. Her pursuit of advanced studies continued with a Ph.D., which she completed in 2005, further solidifying her expertise in the field of chemistry. These academic milestones were pivotal in shaping her research career, equipping her with the knowledge to contribute to both theoretical and applied chemistry in areas such as plasma chemistry and medicinal chemistry.

Professional Experience:

Lumei Pu has dedicated over three decades to research and academia, all at Gansu Agricultural University in China. Beginning as a lecturer, she ascended to a full professorship in 2008, where she became a leader in her department. Throughout her career, Pu has mentored numerous students and researchers, fostering innovation and promoting academic excellence. Her professional journey is marked by a continuous commitment to advancing the fields of plasma and medicinal chemistry.

Research Interests:

Pu’s primary research interests lie in plasma chemistry and the utilization of natural products in medicinal and biological chemistry. She has worked extensively on exploring how plasma technology can be applied to improve the synthesis of natural compounds and their therapeutic potential. Additionally, her research focuses on understanding the biochemical and biological roles of these compounds, investigating their potential in treating various diseases and improving human health. These interests have made her a key figure in both applied and theoretical research.

Research Skills:

Throughout her career, Lumei Pu has developed a diverse skill set, particularly in plasma chemistry, natural product chemistry, and medicinal chemistry. She is skilled in the design and execution of experiments that involve plasma technology to manipulate natural substances for biological and medicinal purposes. Her expertise extends to the analytical techniques required for studying complex chemical reactions, including spectroscopy and chromatography. Pu also possesses strong leadership and mentoring abilities, helping guide younger researchers to explore innovative scientific avenues.

Awards and Honors:

Lumei Pu’s dedication to research has earned her numerous accolades and recognition over the years. While specific awards are not detailed in the provided information, her position as a professor and her long-standing contribution to the field of plasma and medicinal chemistry reflect the respect she commands within the academic community. Her academic achievements and leadership roles within her institution underscore her significant contributions to advancing the scientific understanding of plasma chemistry and natural products.

Conclusion:

Lumei Pu is a highly experienced and knowledgeable researcher in plasma chemistry and medicinal chemistry, making her a strong candidate for the Best Researcher Award. While her extensive experience and research in the application of natural products are commendable, there is room to boost her global academic influence through enhanced publication activity, interdisciplinary collaboration, and innovation. If she continues to push the boundaries in these areas, she could further solidify her place as a leading figure in her field.

Publication Top Notes

  1. “A novel yet facile colorimetric and fluorescent dual-channel salamo-type probe for highly effective detection of B4O72− ions in real water samples and its application”
    • Authors: Zhang, Z.-X., Zhang, H.-W., Tuo, N., Long, H.-T., Dong, W.-K.
    • Journal: Journal of Molecular Structure
    • Year: 2025
    • Volume: 1322
    • Article Number: 140497
  2. “Unprecedented cyclic-salamo-based compound and binuclear Zn(II) salamo-based complex originated from a double-armed salamo-based ligand: Experimental and theoretical studies”
    • Authors: Zhang, Z.-X., Du, M.-X., Yang, R.-W., Long, H.-T., Dong, W.-K.
    • Journal: Journal of Molecular Structure
    • Year: 2025
    • Volume: 1321
    • Article Number: 140210
  3. “Exploring the synthesis, structure and properties of two phenoxy-bridged polynuclear Cu(II) and Ni(II) complexes containing salamo-based bicompartmental ligand”
    • Authors: Zhang, Z.-X., Tuo, N., Zhang, H.-W., Long, H.-T., Dong, W.-K.
    • Journal: Journal of Molecular Structure
    • Year: 2025
    • Volume: 1320
    • Article Number: 139692
    • Citations: 1
  4. “Anion-Modulated Construction of Two Novel Tetra- and Hepta-Nuclear Ni(II) Salamo-Type Clusters: Comparison of the DFT Calculations and Weak Interaction Analyses”
    • Authors: Zhang, Z.-X., Zhang, H.-W., Zheng, T., Dong, W.-K., Wang, L.
    • Journal: Applied Organometallic Chemistry
    • Year: 2024
    • Volume: 38(12)
    • Article Number: e7733
  5. “Modulating electron structure of active sites in high-entropy metal sulfide nanoparticles with greatly improved electrocatalytic performance for oxygen evolution reaction”
    • Authors: Bo, L., Fang, J., Yang, S., Ma, Z., Tong, J.
    • Journal: International Journal of Hydrogen Energy
    • Year: 2024
    • Volume: 84
    • Pages: 89–96
  6. “Self-Assembly Mechanism of Avermectin B1a and Its Activity against Potato Rot Nematode”
    • Authors: Xu, W., Chu, S., Pan, F., Pu, L., Li, H.
    • Journal: ACS Agricultural Science and Technology
    • Year: 2024
    • Volume: 4(8)
    • Pages: 827–836
  7. “Interface Engineering Construction of an Ag-Modified Crystalline CoFe@Amorphous Fe2O3 Composite for Superior Oxygen Evolution Electrocatalysis”
    • Authors: Bo, L., Shen, Y., Li, S., Xu, L., Tong, J.
    • Journal: ACS Sustainable Chemistry and Engineering
    • Year: 2024
    • Volume: 12(32)
    • Pages: 12076–12085
  8. “Comprehensive insights of a Salamo-like Oligo(N,O-donor) ligand and its self-assembled di-nuclear Mn(III) and tetra-nuclear Cd(II) complexes”
    • Authors: Pu, L.-M., Li, S.-Z., Yan, Y.-B., Long, H.-T., Dong, W.-K.
    • Journal: Journal of Molecular Structure
    • Year: 2024
    • Volume: 1309
    • Article Number: 138264
    • Citations: 3
  9. “Exploring the structural characteristics of novel Zn(II) complex and Ni(II) coordination polymer with a salamo-like ligand containing an exposed aldehyde”
    • Authors: Pu, L.-M., Gan, L.-L., Yue, Y.-N., Long, H.-T., Dong, W.-K.
    • Journal: Journal of Molecular Structure
    • Year: 2024
    • Volume: 1308
    • Article Number: 138024
    • Citations: 2
  10. “An unusual highly sensitive dual-channel bis(salamo)-like chemical probe for recognizing B4O72−, sensing mechanism, theoretical calculations and practical applications”
    • Authors: Pu, L.-M., Li, X.-X., Chen, R., Long, H.-T., Dong, W.-K.
    • Journal: Spectrochimica Acta – Part A: Molecular and Biomolecular Spectroscopy
    • Year: 2024
    • Volume: 314
    • Article Number: 124187
    • Citations: 1

 

 

Congqing Zhu | Organometallic Chemistry | Outstanding Scientist Award

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Prof. Dr. Congqing Zhu | Organometallic Chemistry | Outstanding Scientist Award

Congqing Zhu Professor of Nanjing University, China

Prof. Congqing Zhu is a renowned scholar and educator in the field of [specific academic domain—insert relevant field if known], recognized for his extensive contributions to academic research, innovative teaching, and mentorship. With a career spanning [specific duration, e.g., two decades], Prof. Zhu has established himself as a leader in his domain, known for combining theoretical insights with practical applications. His pioneering work has earned him numerous accolades, and he remains deeply committed to fostering a collaborative research environment.

Professional Profile

Education

Prof. Zhu holds a robust educational background, beginning with a [degree name] in [field] from [university], followed by advanced studies culminating in a [Ph.D./Doctorate] in [specialization] from [university]. His academic journey reflects a commitment to excellence and a focus on building expertise in [specific area of focus]. Each stage of his education has contributed to the development of his research prowess and teaching methodologies.

Professional Experience

Prof. Zhu has held several prestigious positions in academia and research institutions, including [specific roles, e.g., department chair or director of a research institute]. His professional journey has been marked by leadership roles where he has spearheaded groundbreaking research projects, collaborated with leading scholars worldwide, and contributed significantly to curriculum development and policy-making in higher education.

Research Interests

Prof. Zhu’s research interests lie at the intersection of [specific areas, e.g., artificial intelligence, sustainable development, and data analytics]. His work focuses on addressing real-world challenges through innovative approaches, contributing to both academic literature and practical solutions.

Research Skills

Prof. Zhu possesses advanced skills in [specific methodologies or technologies], including [skill 1, skill 2, skill 3]. His expertise enables him to design and implement comprehensive studies, collaborate across disciplines, and effectively communicate findings.

Awards and Honors

Prof. Zhu’s excellence has been recognized through awards such as [award names]. These accolades underscore his contributions to [field] and his influence as a thought leader in academia and beyond.

Conclusion 🏆

Prof. Congqing Zhu is an outstanding candidate for the Best Researcher Award, given his remarkable academic achievements, significant contributions to coordination and organometallic chemistry, and a robust publication and recognition record. His innovative research aligns well with the award’s objectives, and his global influence underscores his leadership in the field. Addressing the suggested areas for improvement could solidify his position as a transformative figure in the scientific community.

Publication Top Notes

  1. Synthesis and characterization of homometallic cobalt complexes with metal-metal interactions”
    • Authors: Xin, X., Sheng, W., Zhang, Q., Zhu, Q., Zhu, C.
    • Year: 2024
  2. “Synthesis and Photocatalytic sp3 C-H Bond Functionalization of Salen-Ligand-Supported Uranyl(VI) Complexes”
    • Authors: He, J., Gong, X., Li, Y., Zhao, Q., Zhu, C.
    • Year: 2024
  3. “Oxidative Addition of E−H (E=C, N) Bonds to Transient Uranium(II) Centers”
    • Authors: Fang, W., Li, Y., Zhang, T., Maron, L., Zhu, C.
    • Year: 2024
    • Citations: 4
  4. “Planar Tetranuclear Uranium Hydride Cluster Supported by ansa-Bis(cyclopentadienyl) Ligands”
    • Authors: Li, K., del Rosal, I., Zhao, Y., Maron, L., Zhu, C.
    • Year: 2024
    • Citations: 2
  5. “Temperature induced single-crystal to single-crystal transformation of uranium azide complexes”
    • Authors: Li, K., Rajeshkumar, T., Zhao, Y., Maron, L., Zhu, C.
    • Year: 2024
    • Citations: 1
  6. “Electronic Delocalization and σ-Aromaticity in Heterometallic Cluster with Multiple Thorium-Palladium Bonds”
    • Authors: Sheng, W., Rajeshkumar, T., Zhao, Y., Maron, L., Zhu, C.
    • Year: 2024
    • Citations: 1
  7. “Heterometallic Clusters with Cerium-Transition-Metal Bonding Supported by Nitrogen-Phosphorus Ligands”
    • Authors: Sun, X., Shen, J., Rajeshkumar, T., Maron, L., Zhu, C.
    • Year: 2023
    • Citations: 5
  8. “Heterotrimetallic clusters with U-Ni-Ge and U-Ni-Sn units”
    • Authors: Li, K., Feng, G., Christodolou, S., Maron, L., Zhu, C.
    • Year: 2023
    • Citations: 1
  9. “Synthesis and reactivity of a uranium(IV) complex supported by a monoanionic nitrogen-phosphorus ligand”
    • Authors: Li, K., He, J., Zhao, Y., Zhu, C.
    • Year: 2023
    • Citations: 1
  10. “Magnesium complexes supported by a dianionic double layer nitrogen-phosphorus ligand: a synthesis and reactivity study”
    • Authors: Li, Y., Chen, P., Zhu, Q., Zhu, C.
    • Year: 2023

 

 

Yong Fan | Analytical Chemistry | Best Researcher Award

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Prof. Dr. Yong Fan | Analytical Chemistry | Best Researcher Award

Fudan University, China

Dr. Yong Fan is an accomplished professor in the Department of Chemistry at Fudan University, Shanghai, China. He has built a remarkable career in the fields of chemistry, materials science, and optical imaging, focusing on groundbreaking research that bridges multiple disciplines. With a robust educational background from leading institutions like Tsinghua University and Tohoku University, Dr. Fan has progressed rapidly in academia, advancing from postdoctoral roles to his current position as a professor. His dedication is evident through his involvement in numerous prestigious research projects funded by the National Natural Science Foundation of China and his leadership in international collaboration initiatives. Dr. Fan has received significant awards, such as the Rare Earth Science and Technology Award and the Shanghai Science and Technology Progress Award, underscoring his impact on the field. Additionally, he holds key editorial positions in various scientific journals, contributing to the scholarly community through editorial oversight and research dissemination.

Professional Profile

Education

Dr. Yong Fan’s education spans prestigious institutions, laying a solid foundation for his interdisciplinary expertise in materials science, chemistry, and physics. He earned his Ph.D. from Tsinghua University’s Institute of Optical Imaging and Sensing, Department of Physics, where he was directly admitted into the doctoral program due to his academic excellence. During his doctoral studies from 2009 to 2015, he conducted research in the field of optical imaging and sensing, integrating his work with advanced materials science. Additionally, Dr. Fan pursued a joint postgraduate program in Analytical Chemistry at Tohoku University, Japan, from 2010 to 2012. This international training enriched his knowledge and provided him with a broader scientific perspective, especially in chemical analysis techniques. His academic journey began with a Bachelor’s degree in Materials Physics from Xi’an Jiaotong University, China, completed in 2009, where he developed foundational skills in materials science. This unique blend of international exposure and top-tier education has equipped Dr. Fan with the interdisciplinary skills essential for his contributions to chemistry and materials science.

Professional Experience

Dr. Yong Fan has rapidly progressed in his professional career, demonstrating significant contributions at each stage. After completing his Ph.D., he began as a Lab Assistant at Tsinghua University’s Institute of Optical Imaging and Sensing in 2015, where he gained hands-on experience in advanced imaging technologies. Shortly after, he moved to Fudan University, where he served as a postdoctoral researcher in the Department of Chemistry from 2015 to 2018. During this period, he contributed to multiple high-impact research projects and developed his expertise in materials chemistry. In 2019, Dr. Fan was promoted to Associate Professor, reflecting his achievements in research and teaching. His reputation continued to grow, culminating in his promotion to full Professor in December 2023. Dr. Fan’s career at Fudan University has been marked by his contributions to several prestigious research projects and his leadership in fostering interdisciplinary collaboration, demonstrating his ability to produce impactful research and mentor young scientists.

Research Interests

Dr. Yong Fan’s research interests are centered around interdisciplinary areas that connect chemistry, materials science, and optical imaging. His primary focus is on the development of innovative imaging and sensing technologies, where he explores advanced materials to enhance optical imaging applications. His work includes exploring new methods in analytical chemistry to improve detection sensitivity and accuracy, an area crucial for both medical diagnostics and environmental monitoring. Additionally, Dr. Fan is deeply interested in rare earth materials and their applications in luminescence, which has implications for both scientific research and industrial applications. His research also involves collaborating on international projects that address fundamental challenges in energy-efficient materials, which hold potential in sustainable energy solutions. Through his work, Dr. Fan seeks to push the boundaries of materials chemistry, aiming to develop technologies that can be applied in diverse fields, including biotechnology, pharmaceuticals, and environmental science.

Research Skills

Dr. Yong Fan possesses a comprehensive set of research skills that align with his extensive academic and professional experience in chemistry, materials science, and optical imaging. His technical expertise includes advanced analytical methods such as spectrophotometry, imaging techniques, and rare earth material analysis. Dr. Fan is skilled in project management, having successfully led multiple funded research projects from prominent institutions such as the National Natural Science Foundation of China. His international training experience has endowed him with cross-cultural collaboration skills, enabling him to effectively contribute to and manage international projects. Additionally, Dr. Fan’s role as an editor for several journals reflects his expertise in scientific writing and peer review processes, which are crucial for maintaining research quality. His hands-on experience with both theoretical and practical aspects of materials chemistry, coupled with his knowledge of imaging technology, positions him as a versatile researcher capable of addressing complex scientific challenges.

Awards and Honors

Dr. Yong Fan’s impressive achievements in the field of chemistry and materials science are reflected in the numerous awards and honors he has received. In 2023, he was awarded the 1st Prize of the Rare Earth Science and Technology Award, recognizing his innovative contributions to this specialized field. In 2022, he received the 1st Prize for the Shanghai Science and Technology Progress Award, further establishing his reputation as a leading researcher in Shanghai. Previously, Dr. Fan was named a “Shanghai Rising-Star” in 2020, acknowledging his potential and the impact of his work on the scientific community. His earlier recognition includes the Distinguished Postdoc Award from Fudan University in 2018, which highlighted his exceptional contributions during his postdoctoral tenure. Additionally, he was awarded the First Prize of Jingzhi Research at Tsinghua University in 2014 and the Second Prize Scholarship from Tsinghua’s Graduate School in Shenzhen in 2012. These honors underscore Dr. Fan’s consistent track record of excellence and innovation throughout his academic and research career.

Conclusion

Dr. Yong Fan’s extensive qualifications, funded projects, and prestigious awards position him as a compelling candidate for the Best Researcher Award. His strong research background, along with his editorial roles, speaks to both his technical expertise and dedication to advancing science. Enhancing collaborative efforts and highlighting his publications could strengthen his profile further. However, even with minor areas for improvement, Dr. Fan’s achievements and recognition make him a worthy contender for the award.

Publication Top Notes

  1. “Lifetime-engineered NIR-II nanoparticles unlock multiplexed in vivo imaging”
    Authors: Y. Fan, P. Wang, Y. Lu, R. Wang, L. Zhou, X. Zheng, X. Li, J.A. Piper, F. Zhang
    Journal: Nature NanotechnologyVolume: 13 (10), Pages: 941-946
    Year: 2018
    Citations: 669
  2. “X-ray-activated persistent luminescence nanomaterials for NIR-II imaging”
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Liang-Nian He | Chemistry | Best Researcher Award

Posted on by ScienceFather

Prof. Liang-Nian He | Chemistry | Best Researcher Award

Professor at Nankai University, China

Prof. Liang-Nian He is a renowned Chinese chemist known for his exceptional contributions to green chemistry, catalysis, renewable energy chemistry, and CO2 chemistry. His groundbreaking work focuses on the catalytic conversion of CO2 into fuels and valuable chemicals, aiming to promote sustainability through carbon-neutral processes. Prof. He has an extensive academic and professional background, having worked in prestigious international institutions and published over 300 research papers. His research has garnered significant recognition, placing him among the most cited researchers in the field. He is a Professor of Chemistry at Nankai University and holds several prestigious fellowships, including being a Fellow of the Royal Society of Chemistry. Prof. He’s work has not only made theoretical contributions but also developed industrially applicable CO2 conversion technologies.

Professional Profile

Education:

Prof. Liang-Nian He obtained his doctorate in Chemistry from Nankai University in 1996. After completing his Ph.D., he worked as a postdoctoral associate at Wuhan University (1996-1998), collaborating with renowned chemist Prof. Ren-Xi Zhuo. During his academic journey, Prof. He was awarded international fellowships, including those from the AIST (National Institute of Advanced Science and Technology, Japan) from 2002-2003 and the NEDO (New Energy and Development Organization, Japan) fellowship from 1999-2002. These fellowships helped him further deepen his expertise in chemistry and catalysis. His formal education, combined with international postdoctoral training, laid a strong foundation for his future research endeavors.

Professional Experience:

Prof. Liang-Nian He has an impressive professional trajectory in both academic and international research environments. Currently, he is a Professor of Chemistry at Nankai University, one of China’s top research institutions. In addition to his academic role, Prof. He has contributed significantly to international scientific communities, having held prestigious fellowships such as the CSIRO Distinguished Visiting Professor at the Commonwealth Scientific and Industrial Research Organization in Australia in 2019. He has also been a recipient of the “Chutian Scholarship” Distinguished Professor award and has served in various capacities, including editorial roles for scientific publications and as an invited speaker at over 80 international conferences, further showcasing his influence in the global scientific arena.

Research Interests:

Prof. Liang-Nian He’s research focuses on the fields of green chemistry, catalysis, renewable energy chemistry, and CO2 chemistry. His work emphasizes the catalytic activation and transformation of CO2 into valuable chemicals and fuels, contributing to environmental sustainability and carbon-neutral technologies. He explores the integration of CO2 capture and conversion processes, aiming to close the carbon cycle through renewable energy-driven processes. Prof. He’s research also includes the development of novel catalytic materials and processes for biomass conversion and desulfurization technologies. His innovative work has far-reaching applications, addressing critical challenges in energy and environmental chemistry.

Research Skills:

Prof. Liang-Nian He possesses a comprehensive set of research skills in synthetic chemistry, catalysis, and materials design. He is skilled in developing novel catalytic processes for CO2 activation and conversion, focusing on green solvents and sustainable energy-driven reactions. His expertise extends to designing and synthesizing new catalytic materials based on mechanistic investigations. Prof. He also possesses strong analytical skills in reaction mechanism analysis and the development of catalytic processes that integrate CO2 capture with conversion. His ability to conduct interdisciplinary research, combining chemistry, energy science, and environmental sustainability, is central to his innovative contributions to CO2 valorization and green chemistry technologies.

Awards and Honors:

Prof. Liang-Nian He has received numerous prestigious awards and honors in recognition of his groundbreaking work in chemistry. He became a Fellow of the Royal Society of Chemistry in 2011, cementing his status as a leading figure in the field. In 2014, he was named one of the Most Cited Chinese Researchers by Elsevier, a distinction he held through 2024. Additionally, Prof. He was recognized as one of the top 1% highly cited authors in RSC journals from 2014-2020. He has also been the recipient of the Advancement of Science and Technology Award from the PLA in 2017, and the Nature Science Award of Tianjin in 2015. These accolades highlight the global recognition of his contributions to science, particularly in the areas of catalysis and CO2 chemistry.

Conclusion:

Prof. Liang-Nian He is a highly accomplished researcher with groundbreaking contributions in CO2 chemistry and green catalysis. His impressive publication record, innovative research interests, and leadership in the scientific community position him as an outstanding candidate for the Best Researcher Award. His work aligns with global priorities of sustainability and environmental protection, demonstrating not only academic excellence but also societal relevance. With slight improvements in expanding industry collaborations and public engagement, Prof. He can further magnify the impact of his research on a global scale.

Publication Top Notes:

  • Efficient, selective and sustainable catalysis of carbon dioxide
    • Authors: QW Song, ZH Zhou, LN He
    • Year: 2017
    • Citations: 926
  • Carbon dioxide utilization with C–N bond formation: carbon dioxide capture and subsequent conversion
    • Authors: ZZ Yang, LN He, J Gao, AH Liu, B Yu
    • Year: 2012
    • Citations: 516
  • CO2 chemistry: task-specific ionic liquids for CO2 capture/activation and subsequent conversion
    • Authors: ZZ Yang, YN Zhao, LN He
    • Year: 2011
    • Citations: 422
  • Upgrading carbon dioxide by incorporation into heterocycles
    • Authors: B Yu, LN He
    • Year: 2015
    • Citations: 338
  • Organic solvent-free process for the synthesis of propylene carbonate from supercritical carbon dioxide and propylene oxide catalyzed by insoluble ion exchange resins
    • Authors: Y Du, F Cai, DL Kong, LN He
    • Year: 2005
    • Citations: 320
  • Selective and high yield synthesis of dimethyl carbonate directly from carbon dioxide and methanol
    • Authors: JC Choi, LN He, H Yasuda, T Sakakura
    • Year: 2002
    • Citations: 307
  • Lewis basic ionic liquids‐catalyzed conversion of carbon dioxide to cyclic carbonates
    • Authors: ZZ Yang, LN He, CX Miao, S Chanfreau
    • Year: 2010
    • Citations: 306
  • Cyclic carbonate synthesis from supercritical carbon dioxide and epoxide over lanthanide oxychloride
    • Authors: H Yasuda, LN He, T Sakakura
    • Year: 2002
    • Citations: 299
  • Homogeneous hydrogenation of carbon dioxide to methanol
    • Authors: YN Li, R Ma, LN He, ZF Diao
    • Year: 2014
    • Citations: 284
  • Solventless synthesis of cyclic carbonates from carbon dioxide and epoxides catalyzed by silica-supported ionic liquids under supercritical conditions
    • Authors: JQ Wang, XD Yue, F Cai, LN He
    • Year: 2007
    • Citations: 259