Danning Xing | Chemistry | Best Researcher Award

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Dr. Danning Xing | Chemistry | Best Researcher Award

Associate Researcher from Shandong Institute of Advanced Technology, China

Dr. Danning Xing is an associate researcher at the Shandong Institute of Advanced Technology. She has a strong academic background, having earned her Ph.D. from the State Key Laboratory of Crystal Materials at Shandong University. Her research primarily focuses on the structural design and development of π-d conjugated metal-organic frameworks (MOFs) for applications in photocatalysis and electrocatalysis, which have important implications for sustainable energy and environmental protection. Dr. Xing has published 17 SCI-indexed papers in renowned journals such as Advanced Materials, Small, and Applied Catalysis B: Environmental, and holds one authorized patent. Her research has attracted increasing attention, evidenced by a citation index of 649. Dr. Xing also collaborates with leading scholars in the field, such as Prof. Biaobiao Huang, further expanding her research network and impact. She has received funding from prestigious grants, including the Natural Science Youth Foundation of Shandong Province and the Postdoctoral Science Foundation of China. Her continuous pursuit of innovative approaches positions her as a rising star in materials science.

Professional Profile

Education

Dr. Danning Xing completed her Bachelor’s degree in Chemistry from Shandong University, where she laid the foundation for her future research career. Following her undergraduate studies, she pursued a Ph.D. at the State Key Laboratory of Crystal Materials at Shandong University, where she focused on advanced materials science, specifically in the field of metal-organic frameworks (MOFs). Throughout her doctoral studies, she honed her skills in material design, catalysis, and structural characterization, preparing her for a career in cutting-edge research. Her educational journey has provided her with a deep understanding of chemistry, material science, and engineering, which she applies in her current research endeavors.

Professional Experience

Dr. Danning Xing’s professional career is marked by her transition from academia to research in applied science. After completing her doctoral studies, she took on the role of associate researcher at the Shandong Institute of Advanced Technology, where she continues to advance her work in MOF-based photocatalysis and electrocatalysis. She has been actively involved in securing research funding, including two major grants from the Natural Science Youth Foundation of Shandong Province and the Postdoctoral Science Foundation of China. Dr. Xing’s collaborations with notable scholars, such as Prof. Biaobiao Huang, highlight her ability to engage in high-level research projects and establish connections with leading figures in her field. Her work in research positions has enabled her to make significant strides in both academic and practical applications of materials science.

Research Interests

Dr. Danning Xing’s primary research interests lie in the design, synthesis, and application of π-d conjugated metal-organic frameworks (MOFs) for energy-related applications, particularly photocatalysis, electrocatalysis, and water splitting. Her work aims to address the challenges posed by traditional MOFs, such as poor conductivity and limited stability. She is focused on developing MOFs with enhanced electronic properties, stability, and efficiency. By incorporating small-molecule intercalation and hydrogen bond reinforcement, Dr. Xing has created MOFs with exceptional catalytic activity and long-lasting stability, making them promising candidates for sustainable energy production and environmental applications. Additionally, her work in optimizing electronic coupling through the construction of bimetallic sites represents a significant step forward in enhancing the performance of MOFs in electrocatalysis.

Research Skills

Dr. Danning Xing possesses a comprehensive set of research skills that have supported her successful career in materials science. She is skilled in the design and synthesis of advanced materials, particularly metal-organic frameworks (MOFs), and has a strong command of techniques for characterizing these materials at the molecular level. Her expertise includes the use of various analytical tools to measure the physical and chemical properties of materials, such as X-ray diffraction, spectroscopy, and electron microscopy. In addition to her technical expertise, Dr. Xing excels in experimental design, data analysis, and problem-solving. Her ability to collaborate with leading researchers and secure research funding further demonstrates her capability in conducting high-impact scientific research.

Awards and Honors

Dr. Danning Xing has earned recognition for her contributions to materials science and catalysis, particularly for her innovative work in π-d conjugated metal-organic frameworks (MOFs). Her research has been supported by prestigious grants, including the Natural Science Youth Foundation of Shandong Province and the Postdoctoral Science Foundation of China, highlighting her potential as a rising researcher. Additionally, her work has been published in top-tier scientific journals, such as Advanced Materials, Small, and Applied Catalysis B: Environmental, which speaks to the impact of her research. While she has yet to receive specific academic awards or honors, her growing citation index and the success of her collaborations demonstrate her increasing recognition in the research community.

Conclusion

Dr. Danning Xing is an emerging researcher with a promising future in the field of materials science, particularly in the design of advanced metal-organic frameworks (MOFs) for energy applications. Her innovative contributions to photocatalysis, electrocatalysis, and water splitting have the potential to significantly impact sustainable energy production and environmental protection. With 17 publications in high-impact journals, one authorized patent, and ongoing collaborations with renowned scholars, Dr. Xing is steadily making her mark in the research community. Her research, supported by competitive funding, demonstrates her capability and ambition to tackle pressing challenges in catalysis and materials science. As her career progresses, Dr. Xing is likely to receive more recognition for her groundbreaking work, making her an excellent candidate for future awards.

Publications Top Notes

  • Platinum modification of metallic cobalt defect sites for efficient electrocatalytic oxidation of 5-hydroxymethylfurfural
    Authors: Haoyu Zhan, Baixue Cheng, Yankun Lu, Tao Wang, Peng Zhou
    Journal: Journal of Energy Chemistry
    Year: 2025
    Citations: 7

Mitra Tavakoli | Green Chemistry | Global Health Impact Award

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Assoc. Prof. Dr. Mitra Tavakoli | Green Chemistry | Global Health Impact Award

Associate Professor in Chemical and polymer Engineering Department from Yazd University, Iran

Dr. Mitra Tavakoli Ardakani is an Associate Professor in the Chemical and Polymer Engineering Group at Yazd University, Iran. With a career spanning over two decades, she has made significant contributions to the field of polymer engineering, particularly in the development and characterization of polymer nanocomposites. Her research encompasses areas such as rubber blends, polymer processing, tissue engineering, and hydrogels. Dr. Tavakoli has published extensively in reputable journals and has presented her work at numerous national and international conferences. Her academic endeavors are complemented by her commitment to teaching and mentoring, having supervised several master’s theses. Through her research and academic activities, Dr. Tavakoli continues to advance the field of polymer science, contributing to both academic knowledge and practical applications.

Professional Profile

Education

Dr. Tavakoli’s academic journey in polymer engineering began with a Bachelor of Science degree from Amirkabir University, followed by a Master of Science and a Ph.D. in the same field from the same institution. Her doctoral research focused on the development of polymer nanocomposites, laying the groundwork for her future research endeavors. This strong educational foundation has equipped her with the theoretical knowledge and practical skills necessary to excel in her field.

Professional Experience

Throughout her tenure at Yazd University, Dr. Tavakoli has held various administrative and academic positions. She served as the Deputy in the Yazd Standard Office from 2015 to 2020, where she was involved in setting and maintaining academic standards. Between 2012 and 2014, she was the Director of Educational Affairs, overseeing curriculum development and academic policies. Earlier, from 2002 to 2005, she managed the university’s publishing department. In addition to these roles, Dr. Tavakoli has been actively involved in teaching, offering courses such as Chemistry and Polymerization Kinetics, Energy and Mass Balance, and Advanced Physical Chemistry of Polymers.

Research Interests

Dr. Tavakoli’s research interests are diverse and interdisciplinary, focusing on the synthesis and characterization of polymer nanocomposites, rubber blends, and the irradiation of polymers. She is particularly interested in the application of these materials in tissue engineering and food packaging. Her work on hydrogels and aerogels explores their potential in biomedical applications, while her studies on polymer processing aim to enhance material properties for industrial use. By integrating principles from chemistry, materials science, and engineering, Dr. Tavakoli seeks to develop innovative solutions to contemporary challenges in health and sustainability.

Research Skills

Dr. Tavakoli possesses a comprehensive skill set in polymer science, including expertise in polymer synthesis, characterization techniques, and material testing. She is proficient in various analytical methods such as spectroscopy, rheology, and microscopy, which she employs to investigate the structural and mechanical properties of polymeric materials. Her experience with irradiation techniques, including electron beam processing, allows her to modify polymer structures for specific applications. Additionally, her proficiency in experimental design and statistical analysis enables her to optimize material properties effectively.

Awards and Honors

Dr. Tavakoli’s contributions to polymer engineering have been recognized through her involvement in scientific committees and editorial boards. She has served as a member of the scientific committee and jury for the 7th National Polymer Conference of Iran in 2023. Her research has been published in high-impact journals, reflecting the significance and quality of her work. Through her academic and professional achievements, Dr. Tavakoli has established herself as a respected figure in the field of polymer science.

Conclusion

Dr. Mitra Tavakoli Ardakani’s extensive experience in polymer engineering, combined with her dedication to research and education, positions her as a valuable contributor to advancements in material science. Her work on polymer nanocomposites and their applications in health and environmental sectors demonstrates her commitment to addressing global challenges. By fostering interdisciplinary collaborations and mentoring the next generation of scientists, Dr. Tavakoli continues to influence the field positively. Her achievements reflect a career dedicated to scientific excellence and societal impact.

Publications Top Notes

  • Title: NR/SBR/organoclay nanocomposites: Effects of molecular interactions upon the clay microstructure and mechano‐dynamic properties
    Authors: M. Tavakoli, A.A. Katbab, H. Nazockdast
    Year: 2012
    Citations: 37

  • Title: Effectiveness of maleic anhydride grafted EPDM rubber (EPDM-g-MAH) as compatibilizer in NR/organoclay nanocomposites prepared by melt compounding
    Authors: M. Tavakoli, A.A. Katbab, H. Nazockdast
    Year: 2011
    Citations: 35

  • Title: Surface modification of polymers to enhance biocompatibility
    Authors: M. Tavakoli
    Year: 2005
    Citations: 27

  • Title: Mechanical and thermal properties of octadecylamine-functionalized graphene oxide reinforced epoxy nanocomposites
    Authors: S. Jahandideh, M.J.S. Shirazi, M. Tavakoli
    Year: 2017
    Citations: 22

  • Title: Styrene butadiene rubber/epoxidized natural rubber (SBR/ENR50) nanocomposites containing nanoclay and carbon black as fillers for application in tire-tread compounds
    Authors: S. Ahmadi Shooli, M. Tavakoli
    Year: 2016
    Citations: 22

  • Title: Styrene butadiene rubber/epoxidized natural rubber/carbon filler nanocomposites: microstructural development and cure characterization
    Authors: S. Khalifeh, M. Tavakoli
    Year: 2019
    Citations: 12

  • Title: A Comparative Study of the Dynamic-Mechanical Properties of Styrene Butadiene Rubber/Epoxidized Natural Rubber Dual Filler Nanocomposites Cured by Sulfur or Electron Beam
    Authors: S.A.S.M. Tavakoli
    Year: 2019
    Citations: 11

  • Title: Enhancement in the mechanical property of NBR/PVC nanocomposite by using sulfur and electron beam curing in the presence of Cloisite 30B nanoclay
    Authors: A.S. Rad, E. Aali, S. Hallajian, D. Zangeneh, M. Tavakoli, K. Ayub, M. Peyravi
    Year: 2020
    Citations: 8

  • Title: Coincident optimization of specific volume and tensile strength at acrylic high-bulked yarn using Taguchi method
    Authors: M. Sadeghi-Sadeghabad, M. Tavakoli, A. Alamdar-Yazdia, H. Mashroteha
    Year: 2015
    Citations: 8

Zhishuai Geng | Chemistry | Best Researcher Award

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Prof. Zhishuai Geng | Chemistry | Best Researcher Award

Assistant Professor from Beijing Institute of Technology, China

Zhishuai Geng is a highly accomplished researcher and Assistant Professor at the School of Materials Science and Engineering, Beijing Institute of Technology. With a strong academic background and a distinguished postdoctoral tenure at the University of California, Santa Barbara, Dr. Geng has positioned himself at the forefront of polymer materials research. His work encompasses dynamic polymer networks, self-healing materials, recyclable polymers, and flame-retardant systems, all aimed at creating sustainable, multifunctional, and high-performance materials. He has authored and co-authored numerous publications in top-tier journals such as ACS Applied Materials & Interfaces, Macromolecules, Chemical Engineering Journal, and Journal of Polymer Science. In addition to his academic contributions, Dr. Geng is also an inventor with several patents in the areas of antibacterial polyurethanes and functional polymeric materials. His engagement with the scientific community is evident through his active peer-review duties for prominent journals and participation in major scientific conferences. Dr. Geng’s innovative work reflects a balance between fundamental chemistry and real-world applications, earning him recognition as an emerging leader in the field. His commitment to solving complex challenges in materials science through interdisciplinary strategies makes him an excellent candidate for prestigious research awards and future academic leadership roles.

Professional Profile

Education

Zhishuai Geng’s academic journey began with a Bachelor of Science in Materials Chemistry from Nankai University, China, completed in 2012. This foundational education grounded him in chemical principles essential for advanced materials research. He then pursued his Ph.D. at the Georgia Institute of Technology in the School of Chemistry and Biochemistry, where he conducted innovative research from 2012 to 2018. His doctoral work focused on polymer chemistry and functional macromolecular systems, laying the groundwork for his future scientific pursuits. Following this, Dr. Geng expanded his expertise internationally through a postdoctoral fellowship at the University of California, Santa Barbara, from 2018 to 2021. There, he worked in the Materials Research Laboratory, a globally recognized hub for cutting-edge research in polymer science and materials engineering. This postdoctoral experience significantly enriched his knowledge in covalent adaptable networks, click chemistry, and flame-retardant materials. In May 2021, he began his role as an Assistant Professor at the Beijing Institute of Technology, where he continues to push the boundaries of polymer innovation. His diverse educational background, spanning elite institutions in both China and the United States, equips him with a global perspective and the technical versatility necessary for leading impactful research in materials science.

Professional Experience

Zhishuai Geng’s professional experience reflects a dynamic and progressive trajectory in academia and research. His career began with an intensive postdoctoral research appointment at the University of California, Santa Barbara, between July 2018 and April 2021. There, he collaborated with leading materials scientists on high-impact research projects, gaining deep expertise in covalent adaptable networks, polymer synthesis, and functional material systems. This period also fostered his proficiency in publishing within high-ranking journals and filing patent applications. In May 2021, Dr. Geng transitioned into a faculty role as an Assistant Professor in the School of Materials Science and Engineering at Beijing Institute of Technology. In this position, he leads a research group focused on the design and development of advanced polymeric materials, addressing key challenges in recyclability, mechanical performance, and multifunctionality. In addition to research, he actively mentors students and contributes to academic service through reviewing scholarly articles and participating in academic societies. His professional affiliations include roles in the Georgia Tech Polymer Network and the Center for the Science and Technology of Advanced Materials and Interfaces. Through these diverse experiences, Dr. Geng has established himself as a capable leader and innovator in the field of materials science and engineering.

Research Interest

Dr. Zhishuai Geng’s research interests lie at the intersection of polymer chemistry, materials engineering, and sustainable design. His primary focus is on dynamic polymer networks and covalent adaptable networks, often known as vitrimers, which allow for reprocessing, self-healing, and enhanced material lifespans. He is particularly interested in developing self-healing polymers that combine structural performance with autonomous repair capabilities. Another major area of his work involves flame-retardant polymer materials, where he has contributed significantly to the design of macromolecular and reactive flame retardants, especially phosphorus-based systems. These materials aim to enhance fire safety in polymers without compromising mechanical properties. Dr. Geng is also engaged in creating antimicrobial materials for biomedical applications, an area that addresses critical needs in healthcare and public safety. Furthermore, he explores surface modification techniques using covalent bonding strategies to enhance compatibility and functionality in complex systems. His interdisciplinary interests integrate organic chemistry, polymer physics, and nanotechnology, enabling the design of advanced materials with multiple, often synergistic, functions. Dr. Geng’s work not only contributes to academic knowledge but also holds strong translational potential for applications in electronics, healthcare, and environmental sustainability.

Research Skills

Zhishuai Geng has cultivated a comprehensive skill set that spans the synthesis, characterization, and application of advanced polymeric materials. His expertise in dynamic polymer networks and covalent adaptable networks has enabled him to design materials with properties such as self-healing, recyclability, and thermal responsiveness. He is proficient in advanced polymer synthesis techniques, including click chemistry, post-polymerization modification, and coordination crosslinking. These methods are used to construct multifunctional systems with tailored mechanical and thermal properties. Dr. Geng is also skilled in developing flame-retardant materials through phosphorus-based and macromolecular strategies, demonstrating an ability to balance fire resistance with mechanical integrity. His work in antimicrobial polymer design reflects his capacity for integrating biofunctional components into synthetic frameworks. Technically, he is adept at using a wide range of analytical tools, including spectroscopy (FTIR, NMR), thermal analysis (TGA, DSC), and mechanical testing. His experience also extends to surface engineering, nanoporous structure fabrication, and dielectric property testing. Additionally, Dr. Geng’s role as an active peer reviewer for journals like Macromolecules, Chemical Engineering Journal, and Biomacromolecules demonstrates his analytical rigor and recognition in the field. These research skills collectively enable him to tackle complex scientific challenges and lead high-impact projects across academia and industry.

Awards and Honors

While specific awards are not explicitly listed, Zhishuai Geng’s achievements in research and innovation reflect significant professional recognition. His selection as a postdoctoral fellow at the prestigious University of California, Santa Barbara, highlights his early potential and research promise. Moreover, his current appointment as an Assistant Professor at Beijing Institute of Technology—a top-tier university in China—demonstrates institutional trust in his expertise and leadership. Dr. Geng has filed and received multiple patents, including a Chinese patent for antibacterial polyurethane (CN 116041660 A) and a U.S. patent for polycation synthesis (US 11,589,590 B2), underscoring the novelty and applicability of his research. He has published in leading journals across the fields of chemistry and materials science and has participated in international conferences, such as the American Chemical Society (ACS) National Meeting. Additionally, his role as a frequent peer reviewer for highly regarded journals is an implicit recognition of his scholarly authority. His involvement in scientific organizations like the Georgia Tech Polymer Network and the Center for Advanced Materials and Interfaces further affirms his standing in the research community. With continued excellence, formal awards and honors are likely to follow in his advancing academic career.

Conclusion

Zhishuai Geng exemplifies the qualities of a dedicated, innovative, and impactful researcher in the field of materials science and polymer chemistry. His work demonstrates a deep commitment to solving pressing global challenges through the development of recyclable, flame-retardant, self-healing, and antimicrobial polymer materials. With a solid academic background, including training at Georgia Institute of Technology and postdoctoral research at UC Santa Barbara, Dr. Geng brings a global perspective and technical sophistication to his role as Assistant Professor at Beijing Institute of Technology. His prolific publication record, collaborative patent activity, and active involvement in peer reviewing indicate both scientific credibility and community engagement. While his professional recognition could be further elevated through formal academic awards and expanded research leadership, his contributions already mark him as a rising leader in his domain. Dr. Geng’s ability to bridge fundamental research and real-world application positions him as a valuable asset to the academic and industrial research ecosystems. He is an ideal candidate for research honors such as the Best Researcher Award, and with continued achievements, he is poised to influence the future of sustainable and multifunctional material development on a global scale.

Publication Top Notes

1. Ultrarobust, Self-Healing Poly(urethane-urea) Elastomer with Superior Tensile Strength and Intrinsic Flame Retardancy Enabled by Coordination Cross-Linking
Authors: Yuxin Luo, Meiyan Tan, Jaeman Shin, Cheng Zhang, Shiyuan Yang, Ningning Song, Wenchao Zhang, Yunhong Jiao, Jixing Xie, Zhishuai Geng, et al.
Journal: ACS Applied Materials & Interfaces
Year: 2024
DOI: 10.1021/acsami.4c08185

2. Metformin-Mediated Fast Charge-Reversal Nanohybrid for Deep Penetration Piezocatalysis-Augmented Chemodynamic Immunotherapy of Cancer
Authors: Yuan Wang, Qingshuang Tang, Ruiqi Wu, Shiyuan Yang, Zhishuai Geng, Ping He, Xiaoda Li, Qingfeng Chen, Xiaolong Liang
Journal: ACS Nano
Year: 2024
DOI: 10.1021/acsnano.3c11174
Citations: 3

3. Dual Nucleation Sites Induced by ZIF-67 Towards Mismatch of Polyphosphazene Hollow Sub-Micron Polyhedrons and Nanospheres in Flame Retardant Epoxy Matrix
Authors: Xiaoning Song, Boyou Hou, Zhengde Han, Ye-Tang Pan, Zhishuai Geng, Laia Haurie Ibarra, Rongjie Yang
Journal: Chemical Engineering Journal
Year: 2023
DOI: 10.1016/j.cej.2023.144278

4. Neighboring Group Participation in Ionic Covalent Adaptable Networks
Authors: Lindsay L. Robinson, Eden S. Taddese, Jeffrey L. Self, Christopher M. Bates, Javier Read de Alaniz, Zhishuai Geng, Craig J. Hawker
Journal: Macromolecules
Year: 2022
DOI: 10.1021/acs.macromol.2c01618
Citations: 4

5. Gold(I)-Catalyzed Tandem Cyclization/Hydroarylation of o-Alkynylphenols with Haloalkynes
Authors: Jiawen Wu, Cunbo Wei, Fen Zhao, Wenqian Du, Zhishuai Geng, Zhonghua Xia
Journal: The Journal of Organic Chemistry
Year: 2022
DOI: 10.1021/acs.joc.2c01804
Citations: 5

6. Multielement Flame-Retardant System Constructed with Metal POSS–Organic Frameworks for Epoxy Resin
Authors: Boyou Hou, Wenyuan Zhang, Hongyu Lu, Kunpeng Song, Zhishuai Geng, Xinming Ye, Ye-Tang Pan, Wenchao Zhang, Rongjie Yang
Journal: ACS Applied Materials & Interfaces
Year: 2022
DOI: 10.1021/acsami.2c14740

7. Azide-Substituted Polylactide: A Biodegradable Substrate for Antimicrobial Materials via Click Chemistry Attachment of Quaternary Ammonium Groups
Authors: Pranav P. Kalelkar, Zhishuai Geng, M.G. Finn, David M. Collard
Journal: Biomacromolecules
Year: 2019
DOI: 10.1021/acs.biomac.9b00504
Citations: 19

8. Placing Functionality Where You Want: The Allure of Sequence Control
Authors: Zhishuai Geng, J. Lee, Craig J. Hawker
Journal: Chem
Year: 2019
DOI: 10.1016/j.chempr.2019.09.007

9. A Hierarchically Nanostructured Cellulose Fiber-Based Triboelectric Nanogenerator for Self-Powered Healthcare Products
Authors: X. He, H. Zou, Z. Geng, X. Wang, W. Ding, F. Hu, Y. Zi, C. Xu, S.L. Zhang, H. Yu, et al.
Journal: Advanced Functional Materials
Year: 2018
DOI: 10.1002/adfm.201805540

Hongyuan Chuai | Photocatalysis | Best Researcher Award

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Dr. Hongyuan Chuai | Photocatalysis | Best Researcher Award

Research Fellow from The HongKong Polytechnic University, China

Dr. Hongyuan Chuai is an accomplished researcher in the field of catalysis and electrochemical energy conversion. With a multidisciplinary background in organic, inorganic, and materials chemistry, he has made significant contributions to the development of innovative catalytic systems for carbon dioxide reduction and hydroformylation. His academic and research journey spans leading institutions in China and Europe, including Nankai University, Changchun University of Technology, CNRS in France, and currently, the Hong Kong Polytechnic University. Dr. Chuai’s research is distinguished by its focus on sustainable and green chemistry solutions, particularly the design of carbon-based materials and metal-supported catalysts. His work is published in top-tier journals such as ACS Catalysis and ACS Applied Materials & Interfaces, with multiple first and corresponding authorships. His studies on porous nanomaterials, single-atom catalysis, and electrocatalytic interfaces address critical global challenges in energy and environment. In addition to his research achievements, Dr. Chuai is actively involved in collaborative projects and mentorship roles, reflecting leadership potential and academic versatility. His combination of deep theoretical understanding and practical experimentation positions him as a prominent figure in modern catalysis. Dr. Chuai is a highly suitable candidate for accolades like the Best Researcher Award due to his innovation, productivity, and impact.

Professional Profile

Education

Dr. Hongyuan Chuai’s educational background reflects a strong foundation in chemistry and interdisciplinary research. He began his academic journey in 2011, enrolling in a Master’s program in organic chemistry at Changchun University of Technology. During this time, his research centered on the photocatalytic degradation of organic pollutants, laying the groundwork for his lifelong interest in catalytic systems and environmental remediation. He pursued his Ph.D. in inorganic chemistry at Nankai University, one of China’s top-tier institutions, from 2014 to 2016. His doctoral research involved the design and development of catalytic active sites on titanium dioxide (TiO₂) nanotubes for hydroformylation reactions. Further enriching his academic journey, Dr. Chuai participated in a prestigious joint Ph.D. program funded by the China Scholarship Council (CSC) at the Centre de Recherche Paul Pascal (CRPP), CNRS, in France from 2016 to 2018. This international exposure allowed him to explore the synthesis and characterization of spin-crossover (SCO) complexes. Dr. Chuai’s diverse academic experiences across organic and inorganic disciplines, both in China and abroad, have contributed to his comprehensive understanding of chemistry and catalysis, providing a solid platform for his continued research excellence.

Professional Experience

Dr. Hongyuan Chuai has accumulated over a decade of research experience across leading academic and research institutions. After completing his joint Ph.D. at Nankai University and CNRS, he was appointed as a Research Assistant at Nankai University from September 2019 to June 2020. His role during this period focused on catalysis and materials chemistry, preparing him for advanced postdoctoral work. From September 2020 to June 2024, he served as a Postdoctoral Fellow at Tianjin University, conducting pivotal research on carbon-based materials for electrochemical CO₂ reduction. He has concurrently held a position as an associate researcher at the same institution, demonstrating his growing academic leadership and project management skills. In 2024, Dr. Chuai advanced to a Research Fellow position at the Hong Kong Polytechnic University, further solidifying his reputation as an emerging expert in catalysis and sustainable materials. His professional trajectory showcases steady progress in research responsibility, scientific output, and collaborative engagement. Through roles that span both junior and senior research capacities, he has contributed significantly to the fields of inorganic chemistry, electrocatalysis, and environmental remediation. His work is consistently aligned with cutting-edge technology and global sustainability goals, underlining his value as an experienced and innovative researcher.

Research Interests

Dr. Hongyuan Chuai’s research interests are rooted in catalysis, inorganic chemistry, materials science, and sustainable energy. His primary focus lies in developing advanced catalytic materials for electrochemical carbon dioxide (CO₂) reduction, a reaction of global importance for mitigating climate change. He is particularly interested in carbon-based electrocatalysts, metal-supported systems, and porous nanostructures that can enhance catalytic selectivity and efficiency. His early academic pursuits in photocatalytic degradation of pollutants have evolved into broader interests in environmental catalysis and renewable energy conversion. In recent years, Dr. Chuai has expanded his work into single-atom catalysis, facet-dependent activity studies, and structure-property-function relationships of spinel oxides and hybrid nanomaterials. He also maintains an active interest in hydroformylation reactions using Rh- and Ru-based catalysts supported on engineered TiO₂ nanotubes. His projects often bridge theory with application, aiming to discover practical catalytic systems for energy-efficient and scalable chemical transformations. These research areas reflect a harmonious integration of environmental sustainability, fundamental chemistry, and advanced materials engineering. Dr. Chuai’s forward-looking vision and interdisciplinary mindset continue to shape the direction of his scientific exploration and establish him as a thought leader in energy-oriented chemical research.

Research Skills

Dr. Hongyuan Chuai possesses a robust and versatile skill set in experimental chemistry and advanced materials characterization. His expertise spans the synthesis of nanomaterials, electrocatalysts, and organometallic complexes, particularly those used in CO₂ reduction and hydroformylation processes. He has significant hands-on experience with techniques such as electrospinning, sol-gel synthesis, and wet chemical deposition for creating heterostructured and porous materials. In the laboratory, he demonstrates proficiency in catalyst design, surface modification, and doping strategies to fine-tune the catalytic performance of carbon-based and metal-supported materials. Dr. Chuai is highly skilled in structural and surface analysis using methods such as X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), and X-ray photoelectron spectroscopy (XPS). He also applies electrochemical techniques including linear sweep voltammetry (LSV), cyclic voltammetry (CV), and chronoamperometry for evaluating catalytic efficiency and reaction kinetics. Additionally, his research involves spectroscopic studies and in-situ monitoring of catalytic systems. His ability to integrate material design with mechanistic insights allows him to drive innovation in catalyst development. These technical competencies, combined with strong analytical and scientific writing skills, underscore Dr. Chuai’s capabilities as a leading researcher in energy conversion and catalysis.

Awards and Honors

While the curriculum vitae does not explicitly list formal awards, Dr. Hongyuan Chuai’s academic progression and publication record reflect a strong recognition within the scientific community. His selection for the China Scholarship Council (CSC) program for a joint Ph.D. at the Centre de Recherche Paul Pascal (CNRS) in France is a testament to his academic excellence and international competitiveness. Such scholarships are awarded to top-performing students and researchers, indicating his early promise as a scientific talent. Furthermore, his appointment as a Postdoctoral Fellow and later as an Associate Researcher at Tianjin University demonstrates institutional trust in his research capabilities. His most recent role as a Research Fellow at the Hong Kong Polytechnic University underscores a growing international reputation and leadership potential. In addition, Dr. Chuai has published in high-impact journals such as ACS Catalysis and ACS Applied Materials & Interfaces, which implies peer recognition and excellence in research quality. Although more formal awards, patents, or research grants as principal investigator could enhance his portfolio, his accomplishments already position him as a highly impactful and recognized researcher in his field. His career trajectory shows continued momentum toward greater recognition and future accolades.

Conclusion

Dr. Hongyuan Chuai is a remarkable and promising researcher whose contributions to catalysis and sustainable chemistry mark him as an emerging leader in the field. His interdisciplinary approach, grounded in both theoretical knowledge and experimental practice, enables him to tackle pressing environmental and energy-related challenges through innovative research. With a solid academic background, impressive international experience, and a growing publication record in prestigious journals, Dr. Chuai has demonstrated the qualities of a productive and visionary scientist. His work on carbon-based electrocatalysts and catalytic conversion processes is not only timely but also crucial to global sustainability goals. While further international collaborations, funding leadership, and industry-level research translation would elevate his academic standing even further, his current achievements are substantial. Dr. Chuai combines research rigor with originality and scientific maturity, making him highly deserving of recognition through awards such as the Best Researcher Award. His trajectory indicates a strong upward path, and with continued support and visibility, he is poised to make transformative contributions to the field of chemical and materials research.

Publications Top Notes

  1. Title: Enhancing Vinyl Acetate Hydroformylation with La‐Decorated Rh/TiO2 Nanotubes Catalysts
    Authors: Hongyuan Chuai, Baolin Zhu, Shoumin Zhang, Weping Huang
    Year: 2025

  2. Title: Discovery of Carbon Reduction Reaction
    Authors: Hongyuan Chuai, Weiping Huang, Sheng Zhang
    Year: 2025

  3. Title: Boosting Electrochemical CO2 Reduction to CO by Regulating the Porous Structure of Carbon Membrane
    Authors: Hongyuan Chuai, Haibei Yang, Sheng Zhang
    Year: 2024

  4. Title: Ceria-Mediated Dynamic Sn⁰/Sn^δ+ Redox Cycle for CO2 Electroreduction
    Authors: Hai Liu, Boyang Li, Zhihui Liu, Zhanpeng Liang, Hongyuan Chuai, Hui Wang, Shi Nee Lou, Yaqiong Su, Sheng Zhang, Xinbin Ma
    Year: 2023

  5. Title: Tailoring Microenvironment for Enhanced Electrochemical CO2 Reduction on Ultrathin Tin Oxide Derived Nanosheets
    Authors: Hai Liu, Yaqiong Su, Zhihui Liu, Hongyuan Chuai, Sheng Zhang, Xinbin Ma
    Year: 2023

  6. Title: Asymmetrical Electrohydrogenation of CO2 to Ethanol with Copper–Gold Heterojunctions
    Authors: Siyu Kuang, Yaqiong Su, Minglu Li, Hai Liu, Hongyuan Chuai, Xiaoyi Chen, Emiel J. M. Hensen, Thomas Meyer, Sheng Zhang, Xinbin Ma
    Year: 2023

  7. Title: Copper-Based Bimetallic Electrocatalysts for CO2 Reduction: From Mechanism Understandings to Product Regulations
    Authors: Haibei Yang, Hongyuan Chuai, Qingrui Meng, Meiyan Wang, Sheng Zhang, Xinbin Ma
    Year: 2022

  8. Title: Self-Supported Porous Carbon Nanofibers Decorated with Single Ni Atoms for Efficient CO2 Electroreduction
    Authors: Hui Wang, Hongyuan Chuai, Xiaoyi Chen, Jianlong Lin, Sheng Zhang, Xinbin Ma
    Year: 2022

  9. Title: Nanoporous Tin Oxides for Efficient Electrochemical CO2 Reduction to Formate
    Authors: Hai Liu, Baiyu Miao, Hongyuan Chuai, Xiaoyi Chen, Sheng Zhang, Xinbin Ma
    Year: 2022

  10. Title: Facet Dependent Oxygen Evolution Activity of Spinel Cobalt Oxides
    Authors: Lihua Zhang, Hongyuan Chuai, Hai Liu, Qun Fan, Siyu Kuang, Sheng Zhang, Xinbin Ma
    Year: 2021

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

Cong Lin | Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Cong Lin | Chemistry | Best Researcher Award

Professor from Jiangxi Science & Technology Normal University, China

Cong Lin is an Associate Professor at the College of Chemistry and Chemical Engineering, Jiangxi Science & Technology Normal University. With a strong background in organic chemistry, Lin has made significant contributions to the field through extensive research in transition metal-catalyzed reactions and selective functionalization of organic molecules. Lin has published numerous articles in high-impact journals such as Organic Letters, Advanced Synthesis & Catalysis, and ACS Applied Polymer Materials. His research is widely recognized for its innovation and practical applications in synthetic chemistry and material science. Over the years, Lin has collaborated with multiple researchers, demonstrating strong teamwork and interdisciplinary research skills. His rapid academic progression from lecturer to associate professor reflects his commitment to academic excellence and research leadership.

Professional Profile

Education

Cong Lin completed his Bachelor of Science in Chemistry from Jiangxi Normal University in 2013. He then pursued a Ph.D. in Organic Chemistry at Zhejiang University, one of China’s leading institutions, and graduated in June 2018. His doctoral research focused on transition metal-catalyzed organic synthesis, particularly in selective bond activation and functionalization strategies. His educational background has provided him with a strong foundation in synthetic methodologies, catalysis, and reaction mechanisms, shaping his research direction and contributions to the field.

Professional Experience

After earning his Ph.D., Cong Lin began his academic career as a Lecturer at Jiangxi Science & Technology Normal University in July 2018. Within two years, he was promoted to Associate Professor in June 2020 due to his outstanding research contributions and teaching performance. As an Associate Professor, Lin has been involved in mentoring students, supervising research projects, and conducting innovative studies in organic chemistry. His academic career demonstrates a steady progression, reflecting his dedication to advancing scientific knowledge.

Research Interest

Cong Lin’s research interests lie in transition metal-catalyzed reactions, organic synthesis, and polymer chemistry. His work primarily focuses on the selective functionalization of alkenes and aromatic compounds using metal catalysts such as nickel, palladium, and cobalt. He is particularly interested in developing new methodologies for carbon-carbon and carbon-heteroatom bond formation. His research also explores post-polymerization modifications and sustainable catalytic processes, contributing to advancements in both synthetic chemistry and materials science.

Research Skills

Cong Lin possesses expertise in organic synthesis, transition metal catalysis, and reaction mechanism analysis. He is skilled in designing and optimizing catalytic reactions for efficient bond formation. His research involves advanced spectroscopic and chromatographic techniques, including nuclear magnetic resonance spectroscopy, mass spectrometry, and gas chromatography. Lin is also proficient in computational chemistry for reaction pathway predictions and mechanistic studies. His ability to integrate experimental and theoretical approaches enhances the impact of his research.

Awards and Honors

Cong Lin has received recognition for his contributions to organic chemistry through various awards and honors. His research articles have been featured as cover stories in high-impact journals, and some of his works have been listed as highly cited papers. He has been invited to present his findings at academic conferences and has collaborated on prestigious projects. His rapid career advancement to Associate Professor further highlights the recognition of his scientific contributions within the academic community.

Conclusion

Cong Lin is a distinguished researcher with a strong academic background, impressive publication record, and expertise in transition metal-catalyzed synthesis. His research has significantly contributed to the field of organic chemistry, particularly in selective bond functionalization and catalysis. While his work is widely recognized, expanding international collaborations, securing more research funding, and increasing involvement in mentorship and patenting would further enhance his impact. Overall, Lin’s dedication to research and academic excellence makes him a strong candidate for prestigious research awards.

Publications Top Notes

  1. Title: Post-Polymerization Modification of Polystyrene through Mn-Catalyzed Phosphorylation of Aromatic C(sp²)-H Bonds
    Authors: R. Liu, Ruixing; C. Lin, Cong; Y. Zou, Yubai; J. Zhong, Jiang; L. Shen, Liang
    Year: 2024
    Citations: 1

  2. Title: Directed Nickel-Catalyzed Selective Arylhydroxylation of Unactivated Alkenes under Air
    Authors: Y. Wang, Yihua; C. Lin, Cong; Z. Zhang, Zongxu; L. Shen, Liang; B. Zou, Boya
    Year: 2023
    Citations: 2

  3. Title: Room temperature-curable, easily degradable, and highly malleable and recyclable vanillin-based vitrimers with catalyst-free bond exchange
    Authors: M. Liu, Min; F. Gao, Fei; X. Guo, Xinru; F. Lin, Faman; L. Shen, Liang
    Year: 2022
    Citations: 11

Jiakang Zhang | Chemistry | Best Researcher Award

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Dr. Jiakang Zhang | Chemistry | Best Researcher Award

Doctor at Qingdao university of science and technology, China

Dr. Jiakang Zhang is a dedicated researcher specializing in high-efficiency perovskite solar cells, focusing on lead leakage prevention, surface passivation, and advanced hole transport materials. As the first and corresponding author, he has published multiple high-impact research papers in prestigious journals such as Angewandte Chemie International Edition, Advanced Science, Advanced Materials, and Nano Energy. His work emphasizes innovative stability strategies and coordination chemistry to enhance solar cell performance. Through collaborative research, Dr. Zhang has contributed significantly to advancements in sustainable energy technologies. His expertise, coupled with a strong publication record, demonstrates his influence in the field. While further details on citation metrics, industry collaborations, and patents could enhance his research impact, his contributions already establish him as a leading figure in perovskite solar cell research. Dr. Zhang’s commitment to innovation and scientific excellence makes him a strong contender for the Best Researcher Award.

Professional Profile

Education

Dr. Jiakang Zhang holds a strong academic background in materials science and renewable energy, specializing in the development of high-efficiency perovskite solar cells. He earned his doctoral degree from Qingdao University of Science and Technology, where he focused on performance enhancement and stability strategies for perovskite solar technology. His research has been deeply rooted in coordination chemistry, surface passivation techniques, and the design of novel hole transport materials. Throughout his academic journey, Dr. Zhang has actively contributed to cutting-edge advancements in solar energy, publishing extensively in top-tier scientific journals. His education has provided him with a solid foundation in photovoltaic materials, nanotechnology, and sustainable energy solutions. Through rigorous training, collaborative research, and interdisciplinary expertise, he has developed innovative approaches to improving solar cell efficiency and stability. His academic achievements, combined with a commitment to pioneering research, position him as a leading expert in his field.

Professional Experience

Dr. Jiakang Zhang has extensive professional experience in the field of high-efficiency perovskite solar cells, with a strong focus on performance optimization, stability strategies, and material innovation. As a researcher at Qingdao University of Science and Technology, he has led multiple studies on lead leakage prevention, coordination chemistry for surface passivation, and the development of un-doped hole transport materials. His expertise is reflected in his role as the first and corresponding author of several high-impact publications in renowned journals such as Angewandte Chemie International Edition, Advanced Science, Advanced Materials, and Nano Energy. Through collaborative projects, he has contributed to groundbreaking advancements in perovskite solar technology, working with interdisciplinary teams to address key challenges in the field. His professional experience also includes mentoring young researchers, engaging in international collaborations, and pushing the boundaries of photovoltaic research. Dr. Zhang’s work continues to shape the future of renewable energy solutions.

Research Interests

Dr. Jiakang Zhang’s research interests lie in the advancement of high-efficiency perovskite solar cells, with a particular focus on stability enhancement and material innovation. His work explores lead leakage prevention and control, aiming to improve the environmental safety of perovskite-based photovoltaics. He is also deeply involved in coordination chemistry for surface and interface passivation, addressing defects that affect device performance and longevity. Additionally, Dr. Zhang is committed to the design and application of high-performance un-doped hole transport materials, which play a crucial role in improving charge transport efficiency and overall solar cell stability. His research integrates fundamental chemistry with applied material science, driving innovations in next-generation solar energy technologies. Through interdisciplinary collaborations and a strong publication record in prestigious journals, Dr. Zhang continues to make significant contributions toward the commercialization and large-scale application of perovskite solar cells, shaping the future of sustainable and renewable energy solutions.

Awards and Honors

Dr. Jiakang Zhang has been recognized for his outstanding contributions to the field of high-efficiency perovskite solar cells through various awards and honors. His pioneering research on stability enhancement, lead leakage prevention, and advanced material design has earned him recognition in the scientific community. As the first and corresponding author of multiple high-impact publications in prestigious journals such as Angewandte Chemie International Edition, Advanced Science, Advanced Materials, and Nano Energy, Dr. Zhang has gained significant academic acclaim. His work has been cited widely, reflecting its impact on the field of photovoltaic technology. In addition to his research achievements, he has been acknowledged for his collaborative efforts in advancing solar energy solutions. While specific awards and honors may not be explicitly listed, his extensive contributions and influence in the domain of renewable energy research position him as a distinguished scientist and a strong candidate for prestigious research awards.

Research Skills

Dr. Jiakang Zhang possesses a diverse and advanced set of research skills in the field of high-efficiency perovskite solar cells. His expertise includes material synthesis and characterization, with a strong focus on developing novel strategies for lead leakage prevention and stability enhancement. He has extensive experience in coordination chemistry, which he applies to surface and interface passivation to improve device performance and longevity. Dr. Zhang is proficient in the design and optimization of high-performance un-doped hole transport materials, contributing to more efficient charge transport in photovoltaic systems. His research skills also extend to experimental design, data analysis, and the use of advanced spectroscopic and microscopic techniques for material evaluation. Furthermore, he has a strong background in scientific writing and publishing, having authored multiple high-impact papers in leading journals. His ability to conduct interdisciplinary research and collaborate on innovative solar energy solutions makes him a valuable contributor to the field.

Conclusion

Dr. Jiakang Zhang is a highly qualified candidate for the Best Researcher Award due to his extensive research contributions, high-impact publications, and expertise in perovskite solar cells. Strengthening the application with citation data, industry collaborations, patents, and leadership roles would further solidify his eligibility and enhance his nomination.

Publications Top Notes

  • Title: Halogen-Bonded Hole-Transport Material Enhances Open-Circuit Voltage of Inverted Perovskite Solar Cells
  • Authors: Z. Chen, Zhaoyang; J. Zhang, Jiakang; Z. Chen, Zilong; H. Zhang, Haichang; M. Liu, Maning, et al.
  • Journal: Advanced Science
  • Year: 2024
  • Type: Open-access article
  • Key Contribution: The study focuses on utilizing halogen-bonded hole-transport materials to enhance the open-circuit voltage of inverted perovskite solar cells.

Sophia Lunt | Chemistry | Best Researcher Award

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Prof. Sophia Lunt | Chemistry | Best Researcher Award

Professor at Michigan State University, United States

Dr. Sophia Y. Lunt is a prominent researcher at Michigan State University, specializing in cancer research, metabolism, and luminescent therapeutics. Her work focuses on understanding the reprogrammed metabolism in cancer and other diseases to develop novel therapeutic strategies. With a strong academic and research background, Dr. Lunt has led an independent cancer research laboratory and contributed significantly to the scientific community through high-impact publications. She has secured funding from notable organizations such as NIH, NSF, and DoD, which has enabled her to lead groundbreaking research in cancer metabolism. Dr. Lunt is also passionate about education, promoting student engagement and inclusivity, and has received multiple teaching awards for her efforts. As a mentor, she has successfully guided postdoctoral fellows, graduate students, and undergraduates, helping shape the next generation of researchers.

Professional Profile

Education:

Dr. Sophia Y. Lunt’s academic journey began at Lebanon Valley College, where she graduated summa cum laude with a B.S. in Chemistry in 2005. She then pursued her Ph.D. in Chemistry at Princeton University, where her research focused on metabolomic investigations of drug action. After completing her doctorate in 2010, she worked as a DoD Visionary Postdoctoral Fellow at the Massachusetts Institute of Technology (MIT). During her postdoctoral tenure, she studied the impact of pyruvate kinase isoform expression on cancer cell metabolism and proliferation under the mentorship of Professor Matthew G. Vander Heiden. This extensive educational background provided Dr. Lunt with the expertise to build an innovative research program in cancer metabolism at Michigan State University, where she has been a faculty member since 2015.

Professional Experience:

Dr. Lunt’s professional journey is marked by significant academic and research leadership. After earning her Ph.D. and completing her postdoctoral research, Dr. Lunt joined Michigan State University (MSU) in 2015 as an Assistant Professor. She quickly ascended through the ranks, achieving tenure as an Associate Professor in 2021 and later as a Professor with Tenure in 2024. Throughout her tenure at MSU, she has been instrumental in developing a thriving cancer research laboratory, securing multiple research grants, and contributing to academic growth in the Biochemistry and Molecular Biology, as well as Chemical Engineering and Materials Science departments. In addition to her faculty roles, Dr. Lunt has served as an advisory board member at the Van Andel Institute’s Metabolism & Nutrition Program and as an editorial board member for Cancer & Metabolism. Her experience also extends to mentorship, as she has trained postdoctoral fellows, graduate students, and undergraduates in cancer research and metabolism.

Research Interests:

Dr. Lunt’s primary research interest lies at the intersection of cancer, metabolism, and luminescent therapeutics. Her work investigates how metabolic alterations in cancer cells contribute to disease progression and resistance to therapies. Specifically, she focuses on understanding the reprogramming of cellular metabolism in cancer and how these changes can be exploited to develop targeted therapies. By studying the role of pyruvate kinase isoform expression and other metabolic pathways in cancer cell metabolism, Dr. Lunt aims to uncover novel therapeutic strategies for treating cancer. Additionally, her research includes developing luminescent-based therapeutics for better-targeted treatments in cancer. Her work also extends to broader metabolic diseases, with a focus on how metabolic reprogramming can influence disease mechanisms and therapy outcomes.

Research Skills:

Dr. Lunt possesses a diverse set of research skills that span across cancer biology, biochemistry, and metabolic diseases. Her expertise includes cell metabolism analysis, metabolomics, and the use of luminescent therapeutics for targeted drug delivery. She has mastered techniques in molecular biology, bioenergetics, and the study of pyruvate kinase isoform expression in cancer. Dr. Lunt is proficient in metabolomic analysis, cell culture, and animal model systems, which allow her to explore the metabolic alterations that drive disease progression. Her ability to secure and manage multiple research grants reflects her proficiency in writing competitive research proposals and leading large-scale research projects. Additionally, Dr. Lunt’s mentorship skills are evident in her successful training of numerous students and fellows who have gone on to make significant contributions in cancer research.

Awards and Honors:

Dr. Sophia Y. Lunt has received numerous accolades throughout her career, reflecting her excellence in research and teaching. Among her most prestigious honors is the 2022-23 MSU NatSci Teacher-Scholar Award, recognizing her outstanding contributions to teaching and mentorship. Additionally, she was awarded the 2022 Biochemistry & Molecular Biology Teaching Award for her efforts in fostering an inclusive learning environment. Dr. Lunt’s research excellence has also been recognized through competitive grants such as the NIH NCI R01 and the NSF CAREER Award. She has received several awards to support her cancer research, including the DoD Breast Cancer Research Program Breakthrough Award and the METAvivor Early Career Investigator Award. These honors, along with her extensive publication record in top-tier journals like Nature and Cancer Cell, underscore her impact in the scientific community.

Conclusion:

Dr. Sophia Y. Lunt is a leading researcher and educator with an impressive track record in cancer research, metabolism, and luminescent therapeutics. Her innovative research in metabolic reprogramming of cancer cells is making significant strides in developing novel therapeutic approaches. Through her independent research program, she has demonstrated exceptional leadership and mentorship, guiding numerous students and postdoctoral fellows to success. Dr. Lunt’s research, teaching, and outreach are highly regarded in the academic community, as evidenced by her substantial publication record, competitive grant funding, and numerous awards. Her commitment to advancing scientific knowledge, coupled with her dedication to mentoring the next generation of researchers, makes her an exemplary candidate for the Research for Best Researcher Award.

Publication Top Notes

  • Title: Aerobic glycolysis: meeting the metabolic requirements of cell proliferation
    • Authors: SY Lunt, MG Vander Heiden
    • Journal: Annual Review of Cell and Developmental Biology
    • Volume: 27 (1), 441-464
    • Citations: 3378
    • Year: 2011
  • Title: Pyruvate kinase M2 activators promote tetramer formation and suppress tumorigenesis
    • Authors: D Anastasiou, Y Yu, WJ Israelsen, JK Jiang, MB Boxer, BS Hong, …
    • Journal: Nature Chemical Biology
    • Volume: 8 (10), 839-847
    • Citations: 820
    • Year: 2012
  • Title: A roadmap for interpreting 13C metabolite labeling patterns from cells
    • Authors: JM Buescher, MR Antoniewicz, LG Boros, SC Burgess, H Brunengraber, …
    • Journal: Current Opinion in Biotechnology
    • Volume: 34, 189-201
    • Citations: 660
    • Year: 2015
  • Title: Fatty acid carbon is essential for dNTP synthesis in endothelial cells
    • Authors: S Schoors, U Bruning, R Missiaen, KCS Queiroz, G Borgers, I Elia, …
    • Journal: Nature
    • Volume: 520 (7546), 192-197
    • Citations: 619
    • Year: 2015
  • Title: Metabolic pathway alterations that support cell proliferation
    • Authors: MG Vander Heiden, SY Lunt, TL Dayton, BP Fiske, WJ Israelsen, …
    • Journal: Cold Spring Harbor Symposia on Quantitative Biology
    • Volume: 76, 325-334
    • Citations: 343
    • Year: 2011
  • Title: Pyruvate kinase isoform expression alters nucleotide synthesis to impact cell proliferation
    • Authors: SY Lunt, V Muralidhar, AM Hosios, WJ Israelsen, DY Gui, L Newhouse, …
    • Journal: Molecular Cell
    • Volume: 57 (1), 95-107
    • Citations: 261
    • Year: 2015
  • Title: Succinate dehydrogenase inhibition leads to epithelial-mesenchymal transition and reprogrammed carbon metabolism
    • Authors: PJP Aspuria, SY Lunt, L Väremo, L Vergnes, M Gozo, JA Beach, …
    • Journal: Cancer & Metabolism
    • Volume: 2, 1-15
    • Citations: 175
    • Year: 2014
  • Title: PHGDH heterogeneity potentiates cancer cell dissemination and metastasis
    • Authors: M Rossi, P Altea-Manzano, M Demicco, G Doglioni, L Bornes, M Fukano, …
    • Journal: Nature
    • Volume: 605 (7911), 747-753
    • Citations: 153
    • Year: 2022
  • Title: A domino effect in antifolate drug action in Escherichia coli
    • Authors: YK Kwon, W Lu, E Melamud, N Khanam, A Bognar, JD Rabinowitz
    • Journal: Nature Chemical Biology
    • Volume: 4 (10), 602-608
    • Citations: 120
    • Year: 2008
  • Title: The mitochondrial pyruvate carrier regulates memory T cell differentiation and antitumor function
    • Authors: M Wenes, A Jaccard, T Wyss, N Maldonado-Pérez, ST Teoh, A Lepez, …
    • Journal: Cell Metabolism
    • Volume: 34 (5), 731-746.e9
    • Citations: 114
    • Year: 2022

 

Agnieszka Majkowska-Pilip | Chemistry | Best Researcher Award

Published on by Shen Awards

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
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  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.
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  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

Published on by Shen Awards

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