Chenjie Wei | Analytical Chemistry | Best Researcher Award -9165

Published on by Analytical Chemistry

Dr. Chenjie Wei | Analytical Chemistry, Best Researcher Award

People’s Public Security University of China, China

Profiles

 

Notable Publications

A Fast and Non-destructive Approach to Identify the Heavy Mineral Oil Trace Evidence Based on Spectral Fusion
Authors: Chenjie Wei, Jifen Wang, Xinlong He, et al.
Journal: Microchemical Journal
Year: 2021

A Rapid and Nondestructive Approach for Forensic Identification of Car Bumper Splinters Using Attenuated Total Reflectance Fourier Transform Infrared Spectroscopy and Chemometrics
Authors: Chenjie Wei, Jifen Wang
Journal: Journal of Forensic Sciences
Year: 2020

Forensic Classification of Pigments by Attenuated Total Reflectance-Fourier Transform Infrared Spectroscopy and Chemometrics
Authors: Chenjie Wei, Jifen Wang, Jiahua Ji
Journal: Analytical Letters
Year: 2020

Application of Molecularly Imprinted Polymers in the Analysis of Explosives
Authors: Not specified
Journal: Polymers
Year: 2025

Nondestructive Testing of Automobile Lampshades by Combining Infrared Spectroscopy Data Fusion with Chemometrics
Authors: Wei Chenjie, Wang Jifen, Zeng Xiaohu
Journal: Journal of Analysis and Testing
Year: 2021

Zhijing Xue | Environmental Chemistry | Best Researcher Award

Published on by Analytical Chemistry

Assoc. Prof. Dr. Zhijing Xue | Environmental Chemistry | Best Researcher Award

Shaanxi Normal University, China

👨‍🎓Profiles

Early Academic Pursuits

Assoc. Prof. Dr. Zhijing Xue has cultivated a strong academic foundation in geography, laying the groundwork for a distinguished career in environmental and ecological research. Her early academic endeavors reflect a deep interest in the interactions between soil processes and ecological sustainability, particularly within the framework of biogeochemical cycles. Her passion for understanding the mechanisms of organic matter transformation and nutrient dynamics drove her initial research focus and positioned her to tackle complex environmental issues relevant to China’s unique ecosystems.

Professional Endeavors

Dr. Xue is currently affiliated with the School of Geography and Tourism at Shaanxi Normal University, where she serves as an Associate Professor in the Department of Geography. Since joining the institution, she has taken on a pivotal role in advancing both academic research and student mentorship. Her work bridges theoretical studies with applied environmental science, often intersecting with national ecological restoration goals. She has been entrusted with key responsibilities in curriculum development, faculty collaborations, and student guidance.

Contributions and Research Focus

Dr. Xue’s research explores the ecological significance of litter decomposition and its role in soil nutrient cycling. One of her core projects investigated the organic carbon transformation in the “litter-soil” interface, leveraging biomarker techniques to trace organic matter pathways. Another key project assessed the impact of litter decomposition on soil carbon and nitrogen dynamics within the Loess Plateau, a critical ecological zone in China. These studies contribute vital knowledge on how plant residues affect soil fertility, carbon storage, and nitrogen distribution—insights that are essential for sustainable land use and combating land degradation in semi-arid regions.

Impact and Influence

Dr. Xue’s research has significantly contributed to the broader scientific understanding of terrestrial carbon processes and soil health management. Her findings inform environmental policy, particularly in regions undergoing reforestation and ecological rehabilitation. By linking micro-level soil biochemistry with macro-level ecosystem functioning, her work aids in optimizing land management practices and improving ecological outcomes on degraded lands. Her research also supports China’s national goals of carbon neutrality and sustainable agriculture.

Academic Citations and Collaborations

Her scholarly publications have been recognized and cited by researchers in fields ranging from soil science and environmental chemistry to ecology and climate change studies. Her collaboration with the National Natural Science Foundation of China (NSFC) as a principal investigator exemplifies her leadership and the national importance of her research. Through academic networks and conferences, Dr. Xue has fostered productive exchanges that enrich her own research and elevate the scientific community’s understanding of ecological transformation processes.

Technical Skills and Expertise

Dr. Xue possesses strong technical capabilities in biomarker analysis, soil nutrient profiling, and ecosystem modeling. Her expertise includes using advanced laboratory methods to trace organic matter dynamics and quantify soil carbon and nitrogen interactions. She is adept at integrating field data with geospatial analysis tools, enabling her to capture both local variability and regional trends across landscapes like the Loess Plateau.

Teaching Experience and Mentorship

In her academic role, Dr. Xue is deeply involved in teaching undergraduate and postgraduate courses related to environmental geography, soil science, and ecological restoration. She has guided numerous student research projects, encouraging interdisciplinary thinking and methodological rigor. Her commitment to education is reflected in her ability to blend cutting-edge research with pedagogy, thereby inspiring a new generation of environmental scientists.

Legacy and Future Contributions

Dr. Zhijing Xue continues to shape the academic and environmental research landscape through her pioneering work in soil-litter interactions. Her research trajectory suggests a growing emphasis on understanding the ecological responses to climate change and anthropogenic stressors. Looking ahead, she is poised to contribute to national and international collaborations that tackle ecosystem sustainability and carbon management. Her legacy lies not only in the richness of her scientific findings but also in the empowerment of students and colleagues under her guidance.

📖Notable Publications

Soil organic carbon distribution in relation to land use and its storage in a small watershed of the Loess Plateau, China
Authors: X. Fang, Z. Xue, B. Li, S. An
Journal: Catena
Year: 2012

Deciphering factors driving soil microbial life‐history strategies in restored grasslands
Authors: Y. Yang, Y. Dou, B. Wang, Z. Xue, Y. Wang, S. An, S.X. Chang
Journal: iMeta
Year: 2023

Soil aggregation and intra-aggregate carbon fractions in relation to vegetation succession on the Loess Plateau, China
Authors: M. Cheng, Y. Xiang, Z. Xue, S. An, F. Darboux
Journal: Catena
Year: 2015

Soil nitrogen distributions for different land uses and landscape positions in a small watershed on Loess Plateau, China
Authors: Z. Xue, M. Cheng, S. An
Journal: Ecological Engineering
Year: 2013

Changes in soil organic carbon and total nitrogen at a small watershed scale as the result of land use conversion on the Loess Plateau
Authors: Z. Xue, S. An
Journal: Sustainability
Year: 2018

Jing Liu | Electrochemistry | Best Researcher Award

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Dr. Jing Liu | Electrochemistry | Best Researcher Award

Ningxia University, China

👨‍🎓Profiles

🎓 Early Academic Pursuits

Dr. Jing Liu began her academic journey with a deep interest in agricultural and food sciences, which led her to pursue a Ph.D. in Agricultural Engineering from Shandong University of Technology. Her academic rigor and potential in the interdisciplinary field of bioelectronics and food quality sensing became evident early on. In 2022, she expanded her international exposure as a visiting scholar at Seoul National University, where she deepened her expertise in biomimetic and nanomaterial-based sensors. Her early research laid a solid foundation in understanding flavor chemistry, particularly starting with umami molecules, which evolved into more complex biomimetic systems inspired by human sensory perception.

🏛️ Professional Endeavors

Since May 2024, Dr. Liu has been serving as an Associate Professor at Ningxia University, China. Her swift transition into this academic leadership role reflects her outstanding performance and potential as a young researcher. She has actively led cutting-edge research projects, including a National Natural Science Foundation of China (NSFC) Youth Project, while also taking on multiple academic service roles. Her positions on editorial boards and in professional societies demonstrate a growing influence and recognition within the fields of food biosensing and digital food technologies.

🔬 Contributions and Research Focus

Dr. Liu’s core research revolves around the development of bioelectronic sensing platforms for evaluating food flavor quality, bridging agricultural engineering with nanotechnology and sensory biology. Her work innovatively combines nanomaterials like MXenes, metal-organic frameworks (MOFs), and hydrogels to create biomimetic sensors. She focuses on (i) designing antifouling hydrogel matrices, (ii) building nanocomposite interfaces that mimic human taste receptors, (iii) detecting volatile and non-volatile compounds across solid-liquid-gas interfaces, and (iv) unraveling the mechanisms of signal transduction in biosensor systems. Her vision is to develop real-time, highly specific biosensors that can mimic human senses—paving the way for smart packaging and AI-integrated digital food systems.

🌍 Impact and Influence

Despite being in the early stages of her professorial career, Dr. Liu has already made meaningful contributions to food technology and sensor development. She has published 10 scientific papers, with 9 appearing in Q1 SCI journals as first or co-first author—underscoring the high quality and relevance of her research. Her work has laid the groundwork for practical applications in food freshness detection, flavor profiling, and intelligent packaging systems. Her coaching efforts led student teams to achieve Gold and Best Business Value awards in the prestigious 2024 China International College Students’ Innovation Competition, highlighting her mentorship abilities and entrepreneurial foresight.

📚 Academic Citations

Although still early in her academic journey, Dr. Liu’s scholarly work is gaining traction within the research community, particularly in the fields of food biosensing, flavor science, and nanomaterial applications. Her high journal quality publication ratio (Q1 SCI) reflects the rigor and novelty of her research, suggesting a promising future in terms of citations and academic influence.

🧪 Technical Skills

Dr. Liu is proficient in a range of interdisciplinary tools and technologies, including the synthesis and characterization of nanomaterials (MXenes, MOFs), hydrogel engineering, sensor fabrication, bioelectronic signal analysis, and real-time flavor detection systems. Her expertise in interfacing nanomaterials with biological mechanisms makes her uniquely positioned to innovate at the intersection of materials science and sensory biology.

👩‍🏫 Teaching Experience

At Ningxia University, Dr. Liu has begun shaping the next generation of researchers and professionals in food science and sensor technology. Her teaching integrates practical research experience with theoretical understanding, and she actively mentors students in research and innovation projects. Her role as a coach in major national competitions showcases her ability to guide students beyond the classroom and into competitive, high-impact environments.

🤝 Editorial & Professional Roles

Dr. Liu serves as a Youth Editorial Board Member for Journal of Future Foods and Food Research and Development, and holds a similar position in Food and Medicine Homology. Her professional affiliations include being a council member of the Chinese Association of Traditional Chinese Medicine Informatics and Deputy Secretary-General of its Subcommittee on Digital Detection of Food and Drug Quality and Safety. These roles highlight her recognition as an emerging leader in the integration of food science, informatics, and sensor technologies.

🌟 Legacy and Future Contributions

Dr. Liu is building a legacy as a trailblazer in digital flavor sensing and bioinspired sensor development. Her research holds transformative potential for real-world applications, such as intelligent food packaging, freshness verification systems, and smart kitchen technologies. With her innovative mindset, strong academic foundation, and growing leadership, she is poised to shape the future of food quality assurance in the era of smart agriculture and the Internet of Things (IoT). Her continued work will likely intersect with AI, digital health, and consumer food technology—making her a vital contributor to global food innovation.

📖Notable Publications

Au₂PtNPs/hydrogel based multichannel bionic sensor for rapid evaluation of food flavor
Journal: Food Chemistry
Year: 2025

Recent progress on bionic umami sensors for analysis of food flavor: A review
Journal: (Journal name not provided)
Year: 2025

Electrochemical aptamer sensor based on bimetallic CuZr-MOF and AuNPs for ultrasensitive detection of organophosphorus pesticides in vegetables
Journal: Journal of Food Composition and Analysis
Year: 2025

Umami peptide synergy unveiled: A comprehensive study from molecular simulation to practical validation of sensing strategy
Journal: Biosensors and Bioelectronics
Year: 2025

Bridge-type aptamer-Au@Pt-MXene-based sensing platform for detection of multiple organophosphorus pesticides
Journal: Microchemical Journal
Year: 2025

 

Zheng Xueping | Inorganic Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Zheng Xueping | Inorganic Chemistry | Best Researcher Award

Chang’an University, China

👨‍🎓Profiles

🎓 Early Academic Pursuits

Assoc. Prof. Zheng Xueping of Chang’an University has cultivated a robust academic foundation grounded in applied material science and energy technology, with a core focus on hydrogen production and storage. Her early academic pursuits positioned her strongly within China’s rapidly growing hydrogen energy landscape, enabling her to take on significant national projects early in her career.

🏛️ Professional Endeavors

Currently serving as an Associate Professor, Dr. Zheng has played vital roles in both academic research and national-level scientific initiatives. She has presided over and contributed to over 50 major projects, including prestigious programs such as 863, 973, and key R&D initiatives from the Ministry of Science and Technology, as well as projects under the National Natural Science Foundation of China. She has independently led two provincial-level projects and one at the city level in Xi’an, showcasing her leadership and influence across various administrative and academic spheres.

🔬 Research Focus and Contributions

Her research is sharply focused on hydrogen production technologies via hydrolysis and advanced hydrogen storage systems. She has made substantial contributions to the development of solid-state hydrogen storage alloys and storage tanks, with applications in grid connectivity, energy buffering, and power generation. Notably, her work in low-temperature hydrogen storage alloys, initiated as early as 2007, has already seen industrial implementation. She has further contributed to innovative hydrogen production methods through hydrolysis of sodium borohydride and nano-aluminum, and independently designed hydrolysis-based hydrogen generation devices—leading to numerous patents.

🧪 Applications and Innovation Highlights

Dr. Zheng’s applied innovations extend beyond theoretical research. She developed high-end white glaze for Hong Kong in collaboration with Tangshan No.5 Ceramics Factory, designed sol-gel farad membrane machines for university use, and engineered a novel composite cement mortar admixture that resolved critical technical challenges during the construction of Xi’an Metro Line 3. These contributions exemplify her capability to transition research into practical, industrial-scale solutions.

🏅 Awards and Recognitions

Her innovative work has earned her multiple honors. These include a First Prize and a Third Prize at the provincial/ministerial level, the Merit Award at the 2023 “Maker China” High-End Manufacturing Competition, a Second Prize at the 2024 Xi’an Women’s Innovation and Entrepreneurship Competition, and recognition under the Xi’an Scientist + Engineer Project in 2025. These awards reflect not only her academic excellence but also her role in advancing technology-driven entrepreneurship.

📚 Academic Citations and Publications

With over 60 published articles—more than 20 of which are SCI-indexed—Dr. Zheng’s research has significantly shaped the academic discourse around hydrogen energy. She has secured nine invention patents and six utility model patents, with several more under evaluation. Her publication portfolio includes key works on rare earth, titanium-based, and magnesium-based hydrogen storage alloys, and hydrolysis-based hydrogen generation methods. These contributions have advanced both fundamental science and technological implementation.

🔍 Editorial Roles and Peer Recognition

She serves as an external reviewer for high-impact journals including International Journal of Hydrogen Energy, Journal of Power Sources, and Journal of Alloys and Compounds, evidencing the recognition of her expertise by the global scientific community. Moreover, she has been repeatedly invited to participate in the selection process of the internationally prestigious “Eni Award” by the Fondazione Eni Enrico Mattei in Italy.

🧑‍🔬 Professional Memberships and Advisory Roles

Dr. Zheng is actively involved in scientific governance and policy advisory roles. She serves as a review expert for multiple provincial Science and Technology Departments across China, including Shaanxi, Jiangxi, Shanxi, Xizang, Qinghai, Yunnan, and Heilongjiang. She is a member of the Powder Metallurgy Branch of the Chinese Society for Metals, part of the Expert Committee on Energy Materials and Devices in the National Materials Think Tank, and an expert in the National Postgraduate Education Evaluation system.

👩‍🏫 Teaching and Mentorship

As an academic mentor and educator, Dr. Zheng contributes to the training of future scientists and engineers in the field of hydrogen materials and clean energy technology. She supports young researchers through active guidance and provides access to real-world project experience via her numerous research initiatives.

🌟 Legacy and Future Contributions

Assoc. Prof. Zheng Xueping’s legacy is deeply embedded in the practical and scalable development of hydrogen storage and production technologies. Her work bridges the gap between high-level material science and societal energy needs. Moving forward, her research is expected to make a lasting impact on China’s national hydrogen strategy, the clean energy transition, and global collaborative innovation. With a remarkable record of academic achievement, applied invention, and policy-level engagement, she is poised to remain at the forefront of hydrogen energy research and technological advancement.

📖Notable Publications

Effect of loaded Co–B on hydrogen release performance of sodium borohydride
Journal: Journal of Physics and Chemistry of Solids
Year: 2025

Effect of Co–B on the hydrogen storage properties of LiAlH₄
Journal: Chemical Physics Letters
Year: 2025

Study on capacity of HPSB hydrogen storage material catalyzed by Sm₂O₃
Journal: International Journal of Hydrogen Energy
Year: 2024

Hydrogen generation by hydrolysis of alkaline NaBH₄ solution doped with amorphous catalyst Co–Y₂O₃–B/CNTs
Journal: International Journal of Hydrogen Energy
Year: 2024

A novel hydrogen storage material: The hydrolysis products of sodium borohydride
Journal: Journal of Physics and Chemistry of Solids
Year: 2024

Jeba Reeda V S | Organic Chemistry | Best Researcher Award

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Dr. Jeba Reeda V S | Organic Chemistry | Best Researcher Award

Easwari Engineering College, India

👨‍🎓Profiles

🎓 Early Academic Pursuits

Dr. Jeba Reeda V S embarked on her academic journey with a strong foundation in Physics, earning both her B.Sc. and M.Sc. degrees with distinction. Her passion for understanding the fundamental nature of materials and molecular interactions led her to pursue a Ph.D. in Physics at Manonmaniam Sundaranar University, Tirunelveli. Specializing in Density Functional Theory (DFT) and Spectroscopy, her doctoral research laid the groundwork for a deeper exploration of quantum chemistry and bioactive molecular systems.

🏛️ Professional Endeavors

Currently serving as an Assistant Professor at Easwari Engineering College, Chennai, Dr. Reeda plays a pivotal role in both teaching and institutional development. She teaches Engineering Physics and Materials Science, while also contributing to academic quality through her involvement in NBA and NAAC accreditation processes. Her commitment to student mentoring and academic coordination further reflects her dedication to nurturing the next generation of scientists and engineers.

🔬 Contributions and Research Focus

Dr. Reeda’s research is centered around computational physics, particularly the application of DFT and spectroscopy in the analysis of bioactive compounds. Her work integrates quantum chemical calculations, molecular docking, and simulation methods to investigate the structural and electronic properties of compounds with antimicrobial and antioxidant properties. She has published 31 peer-reviewed research papers in SCI and Scopus-indexed journals, making significant contributions to drug design, materials science, and molecular interaction studies.

🌍 Impact and Influence

Despite the absence of major funded projects or patents, Dr. Reeda’s scholarly impact is evident in her citation index of 415, indicating the relevance and quality of her published work. Her interdisciplinary approach bridges theoretical and applied sciences, and she has presented her findings at numerous national and international conferences. Her efforts in organizing and co-convening events like NCETEA-2024 have also facilitated greater collaboration across fields such as energy and environmental research.

📊 Academic Citations

With 31 published papers and 415 citations, Dr. Reeda’s academic footprint is growing steadily. Her work is frequently cited in studies related to molecular spectroscopy, quantum modeling, and bioactive material design. This growing citation index reflects both the technical rigor and applied relevance of her research within the scientific community.

🧪 Technical Skills

Dr. Reeda brings expertise in several high-level analytical and computational techniques. These include Density Functional Theory (DFT), molecular docking simulations, vibrational and electronic spectroscopy, and structural analysis of biomolecules. Her proficiency in these tools allows her to effectively investigate molecular behavior and predict functional properties of novel compounds.

👩‍🏫 Teaching Experience

With hands-on experience in teaching core undergraduate subjects like Engineering Physics and Materials Science, Dr. Reeda combines theoretical instruction with real-world relevance. She engages actively in curriculum development and fosters research-driven learning environments. Her dedication to mentoring students highlights her role as both educator and guide, supporting their academic growth and critical thinking.

🌟 Legacy and Future Contributions

Dr. Reeda’s scholarly journey is marked by persistence, quality, and innovation. Although she has not yet ventured into patenting or large-scale industrial collaborations, her current trajectory shows immense promise. In the years ahead, her goals include securing funded research, expanding into applied projects with societal impact, and building international collaborations. Her passion for inclusive learning and interdisciplinary science signals a bright and impactful future in academia and research.

📖Notable Publications

Conformational stability, quantum computational (DFT), vibrational, electronic and non-covalent interactions (QTAIM, RDG and IGM) of antibacterial compound N-(1-naphthyl …
Authors: VSJ Reeda, S Sakthivel, P Divya, S Javed, VB Jothy
Journal: Journal of Molecular Structure, Volume 1298, Article 137043
Year: 2024

Vibrational spectroscopic, quantum computational (DFT), reactivity (ELF, LOL and Fukui), molecular docking studies and molecular dynamic simulation on (6-methoxy-2-oxo-2H …
Authors: VSJ Reeda, VB Jothy
Journal: Journal of Molecular Liquids, Volume 371, Article 121147
Year: 2023

Synthesis, solvent polarity (polar and nonpolar), structural and electronic properties with diverse solvents and biological studies of (E)-3-((3-chloro-4-fluorophenyl) imino …
Authors: VSJ Reeda, VB Jothy, M Asif, M Nasibullah, NS Alharbi, G Abbas, …
Journal: Journal of Molecular Liquids, Volume 380, Article 121709
Year: 2023

Fungicide compound 2,3-dichloronaphthalene-1,4-dione: Non-covalent interactions (QTAIM, RDG and ELF), combined vibrational spectroscopic investigations using DFT approach …
Authors: P Divya, VSJ Reeda, VB Jothy
Journal: Journal of Molecular Liquids, Volume 400, Article 124544
Year: 2024

Molecular structure and quantum descriptors of cefradine by using vibrational spectroscopy (IR and Raman), NBO, AIM, chemical reactivity and molecular docking
Authors: MK Chaudhary, T Karthick, BD Joshi, P Prajapati, MSA de Santana, …
Journal: Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, Volume 246, Article 118976
Year: 2021

Jungpil Noh | Electrochemistry | Best Researcher Award

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Prof. Jungpil Noh | Electrochemistry | Best Researcher Award

Gyeongsang National University, South Korea

👨‍🎓Profiles

🎓 Early Academic Pursuits

Prof. Jungpil Noh began his academic journey with a strong foundation in materials science and engineering. He earned his bachelor’s and master’s degrees in Metallurgical and Materials Engineering from Gyeongsang National University, South Korea, under the supervision of Prof. Tae-Hyun Nam. Demonstrating a keen interest in advancing materials research, he pursued a Ph.D. in Material Science at the Japan Advanced Institute of Science and Technology, under the guidance of Prof. Nobuo Otsuka. During this time, he immersed himself in physical materials science, which laid the groundwork for his future research in energy-related materials.

💼 Professional Endeavors

Prof. Noh has steadily advanced through various academic positions in both Japan and South Korea. He served as an assistant professor at JAIST before returning to Gyeongsang National University, where he contributed as an academic research professor and later rose through the ranks as assistant professor, associate professor, and currently, full professor. He is presently based in the Department of Energy & Mechanical Engineering, College of Marine Science, at Gyeongsang National University in Tongyeong. His academic career reflects commitment, international experience, and a consistent record of professional growth.

🔬 Contributions and Research Focus

Prof. Noh’s research spans several key areas within materials science. His expertise in lithium-ion batteries has led to innovations in energy storage technologies. He also focuses on thin film deposition techniques, contributing to the development of functional coatings for energy and electronic applications. In addition, his work on TiNi-based shape memory alloys is notable for its relevance to smart materials and actuating systems. Across all his research, Prof. Noh emphasizes both fundamental understanding and practical applications, making his work valuable to both academic and industrial stakeholders.

🌍 Impact and Influence

Prof. Noh’s research has had a meaningful impact in the fields of energy materials and functional alloys. His experience in both South Korea and Japan allows him to bridge international academic practices, bringing a global perspective to his work. Through his contributions, he supports the development of sustainable technologies and positions Gyeongsang National University as a hub for advanced materials research. His collaborations and influence extend to students, peers, and interdisciplinary teams working on energy and mechanical systems.

📚 Academic Citations and Recognition

Prof. Noh is widely acknowledged within the academic community for his scientific contributions. His publications are frequently cited in research related to batteries, thin films, and shape memory alloys. While specific citation metrics are not detailed here, his longstanding roles in academia and research leadership are a testament to his recognition and authority in his field.

🧰 Technical Skills

Prof. Noh possesses robust technical competencies across multiple domains. His skill set includes advanced techniques for thin film fabrication such as sputtering and evaporation, along with materials characterization tools like SEM, TEM, XRD, and DSC. He also excels in electrochemical analysis methods relevant to battery performance, such as cyclic voltammetry and impedance spectroscopy. His work with TiNi-based shape memory alloys demonstrates his deep understanding of thermomechanical behavior and functional performance.

👨‍🏫 Teaching Experience

Prof. Noh has played a pivotal role in teaching and mentoring students at Gyeongsang National University. He delivers lectures in materials science, energy systems, electrochemistry, and smart materials, integrating theoretical instruction with hands-on laboratory experiences. His guidance has supported numerous graduate and undergraduate research projects, helping to develop the next generation of engineers and materials scientists.

🏆 Legacy and Future Contributions

Prof. Noh continues to make substantial contributions to materials science and energy engineering. His legacy lies in advancing practical technologies such as high-performance batteries and intelligent material systems. Looking ahead, his work is expected to shape the future of clean energy, smart devices, and sustainable material solutions. Through academic leadership, international collaboration, and impactful research, he is paving the way for meaningful scientific and societal advancements.

📖Notable Publications

Aluminum Co-Deposition via DC Magnetron Sputtering for Enhanced Pitting Resistance of Copper–Nickel Alloys
Authors: Sang-Du Yun, Yeonwon Kim, Jun-Seok Lee, Jungpil Noh, Beomsoo Kim, Jae-Sung Kwon, Sung-Woong Choi, Jeong Hyeon Yang
Journal: Coatings
Year: 2024

Unraveling the Mechanism and Practical Implications of the Sol-Gel Synthesis of Spinel LiMn₂O₄ as a Cathode Material for Li-Ion Batteries: Critical Effects of Cation Distribution at the Matrix Level
Authors: Oyunbayar Nyamaa, Gyeong-Ho Kang, Sun-Chul Huh, Jeong-Hyeon Yang, Tae-Hyun Nam, Jungpil Noh
Journal: Molecules
Year: 2023

Free-Standing Li₄Ti₅O₁₂/Carbon Nanotube Electrodes for Flexible Lithium-Ion Batteries
Authors: Jun-Seok Lee, Sang-Du Yun, Oyunbayar Nyamaa, Jeong Hyeon Yang, Sun-Chul Huh, Hyo-Min Jeong, Tae-Hyun Nam, Yeon-Ju Ryu, Jungpil Noh
Journal: Energies
Year: 2022

Electrochemical Properties of Multilayered Sn/TiNi Shape-Memory-Alloy Thin-Film Electrodes for High-Performance Anodes in Li-Ion Batteries
Authors: Duck-Hyeon Seo, Jun-Seok Lee, Sang-Du Yun, Jeong Hyeon Yang, Sun-Chul Huh, Yonmo Sung, Hyo-Min Jeong, Jungpil Noh
Journal: Materials
Year: 2022

High Electrochemical Performance Silicon Thin-Film Free-Standing Electrodes Based on Buckypaper for Flexible Lithium-Ion Batteries
Authors: Oyunbayar Nyamaa, Duck-Hyeon Seo, Jun-Seok Lee, Hyo-Min Jeong, Sun-Chul Huh, Jeong Hyeon Yang, Erdenechimeg Dolgor, Jungpil Noh
Journal: Materials
Year: 2021

Grain Size and Phase Transformation Behavior of TiNi Shape-Memory-Alloy Thin Film under Different Deposition Conditions
Authors: Joohyeon Bae, Hyunsuk Lee, Duckhyeon Seo, Sangdu Yun
Journal: Materials
Year: 2020

Xinglong Wang | Biochemistry | Best Researcher Award

Published on by Analytical Chemistry

Assoc. Prof. Dr. Xinglong Wang | Biochemistry | Best Researcher Award

Chinese Academy of Sciences, China

👨‍🎓Profiles

🎓 Early Academic Pursuits

Assoc. Prof. Dr. Xinglong Wang began his academic journey with an unwavering commitment to biomedical sciences. He earned his Master’s degree from La Trobe University (2015–2017) under the mentorship of Prof. Marc Kvansakul, where he gained critical insights into molecular biology and bioengineering. He further deepened his expertise by pursuing a Ph.D. at Jiangnan University (2018–2022) under the supervision of Prof. Jian Chen, a leading researcher in bioengineering and microbial systems. His doctoral work laid the foundation for his future research in biomedical technology and applied biosciences.

👨‍🔬 Professional Endeavors

Dr. Wang embarked on a postdoctoral research fellowship at Jiangnan University (2022–2024), where he focused on advancing technologies in biomedical engineering. Building upon this momentum, he secured a prestigious position in 2025 as an Associate Professor and Master’s Supervisor at the Suzhou Institute of Biomedical Engineering and Technology, a key division of the Chinese Academy of Sciences (CAS). His current role involves a dynamic combination of research, innovation, and student mentorship at one of China’s most renowned scientific institutions.

🧬 Contributions and Research Focus

Dr. Wang’s research spans biomedical instrumentation, biosensors, and bioinformatics, with a particular interest in integrating engineering and biology for healthcare innovation. His interdisciplinary approach bridges gaps between traditional engineering and modern medical technologies. Notably, his work in developing novel diagnostic and therapeutic platforms has positioned him at the forefront of translational medicine in China. His contributions include projects on biocompatible materials, smart medical devices, and synthetic biology tools.

🌍 Impact and Influence

Wang’s work has already begun to influence both academic and industrial sectors. Through collaborative projects and publications, he has contributed to improving early disease detection systems and personalized treatment protocols. His participation in national research programs and partnerships with industry players in the biomedical field reflects his influence as both a scientist and innovator. As a rising academic, his voice is being increasingly recognized in conferences and peer-reviewed publications in biomedical engineering.

📚 Academic Citations

Although still early in his academic leadership, Dr. Wang’s publications during and after his Ph.D. and postdoctoral work are being cited in the fields of medical technology, bioengineering, and computational biology. His collaborations and co-authored works have been referenced by researchers across Asia and internationally, indicating growing recognition in key scientific circles.

🛠️ Technical Skills

Dr. Wang is highly skilled in a range of technical domains, including biomedical imaging, nanomaterials characterization, microfluidic systems, and genetic engineering techniques. He is also adept with data analysis tools, MATLAB, Python, and bioinformatics software. His interdisciplinary expertise allows him to prototype and test devices at the interface of biology and engineering, making him a versatile researcher and problem-solver.

👨‍🏫 Teaching and Mentorship Experience

As a Master’s Supervisor at CAS, Dr. Wang has been deeply involved in mentoring graduate students and fostering a hands-on, innovation-driven learning environment. He emphasizes project-based learning and encourages students to publish in high-impact journals, file patents, and present at international conferences. His previous mentorship during postdoctoral years also contributed to training junior researchers and integrating academic rigor with practical implementation.

🌟 Legacy and Future Contributions

Dr. Wang is positioning himself as a leader in biomedical engineering with a vision for transformative healthcare technologies. His future plans involve establishing a cutting-edge research group focused on wearable diagnostics, AI-assisted medical imaging, and next-generation biosensors. He aims to elevate China’s global role in biomedical innovation by translating laboratory discoveries into clinical and industrial applications. His legacy is likely to be marked by the development of affordable, intelligent medical solutions and the training of a new generation of interdisciplinary scientists.

📖Notable Publications

Electron transfer engineering of artificially designed cell factory for complete biosynthesis of steroids
Nature Communications
2025

GRLGRN: graph representation-based learning to infer gene regulatory networks from single-cell RNA-seq data
BMC Bioinformatics
2025

Characteristics of the milk microbiota of healthy goats and goats diagnosed with clinical mastitis in Western China
Microbial Pathogenesis
2025

Combined metabolic and enzymatic engineering for de novo biosynthesis of δ-tocotrienol in Yarrowia lipolytica
Synthetic and Systems Biotechnology
2025

Immunogenicity evaluation of a recombinant pseudorabies virus co-expressing PCV2 and PCV3 capsid proteins in mice and piglets
Vaccine
2025

Modulating phosphate transfer process for promoting phosphorylation activity of acid phosphatase
Bioresource Technology
2025

 

Yang Zhao | Biochemistry | Best Researcher Award

Published on by Analytical Chemistry

Prof. Dr. Yang Zhao | Biochemistry | Best Researcher Award

Northwest Institute of Eco-Environment and Resources, China

👨‍🎓Profiles

🎓 Early Academic Pursuits

Prof. Dr. Yang Zhao, earned his Ph.D. in Ecology, laying a strong academic foundation in environmental and biological sciences. His early academic years were marked by a growing interest in arid land restoration, ecosystem resilience, and ecological innovation. With a solid grounding in biochemistry and ecological sciences, he steadily advanced his research in desert ecosystems, particularly focusing on the interaction between soil biology and climate stressors. His educational journey equipped him with interdisciplinary skills critical to tackling pressing environmental challenges.

💼 Professional Endeavors

Currently serving as a Research Fellow and Ph.D. Supervisor at the Northwest Institute of Eco-Environment and Resources, Chinese Academy of Sciences (CAS), Prof. Zhao has led more than 10 national-level projects, showcasing leadership in both fundamental and applied ecological research. He has played a pivotal role in the National Key Research and Development Program of China, as well as multiple grants from the National Natural Science Foundation of China and the prestigious CAS “Light of West China” Key Program. His consulting roles and active engagement with government-funded ecological programs illustrate his influence in shaping China’s desertification countermeasures.

🔬 Contributions and Research Focus

Prof. Zhao’s research focuses primarily on desert ecosystem restoration, particularly on improving soil health, moisture retention, and vegetation biodiversity through cyanobacterial inoculation. A landmark study under his leadership evaluated the role of artificial biological crusts in improving soil enzyme activity, herbaceous plant richness, and ecosystem resilience under drought conditions. Using advanced tools such as Partial Least Squares Structural Equation Modeling (PLS-SEM), he demonstrated the direct and indirect roles of soil moisture and plant cover in enhancing ecological balance. These innovations significantly contribute to combating land degradation and adapting ecosystems to climate change.

📊 Impact and Influence

With over 100 academic papers published and 10 national patents to his name, Prof. Zhao has made an indelible mark on the field of eco-environmental science. His work has appeared in prestigious journals such as the Journal of Environmental Management (SCI) and has earned him accolades including the First Prize of Ningxia Science and Technology Progress. He is a recognized figure in policy-driven research, and his scientific findings have translated into practical frameworks for sustainable land restoration in arid regions across China.

📚 Academic Citations and Editorial Role

Prof. Zhao’s research is well-represented in the Web of Science and other international citation indexes. His consistent contributions to high-impact journals have earned him a respected voice in academic circles. He also serves as a member of editorial boards, providing peer-review expertise and guiding the direction of publications in his field. This editorial role reflects his commitment to maintaining scholarly integrity and promoting cutting-edge ecological research globally.

🧪 Technical Skills

Prof. Zhao is proficient in advanced ecological assessment tools, including soil biochemistry analysis, remote sensing for ecosystem monitoring, hydrological modeling, and PLS-SEM for ecological systems. His interdisciplinary toolkit allows him to integrate field data, statistical models, and experimental treatments for comprehensive desert ecology studies. These competencies place him at the forefront of modern environmental restoration research.

👨‍🏫 Teaching and Mentorship Experience

As a Ph.D. Supervisor, Prof. Zhao is actively involved in mentoring the next generation of ecological scientists. He has guided doctoral and postgraduate students in topics ranging from cyanobacterial inoculation to ecosystem modeling, instilling scientific rigor and innovation. His teaching extends beyond the classroom, fostering field-based training and real-world environmental problem solving.

🏆 Legacy and Future Contributions

Prof. Zhao’s legacy lies in his integration of innovative ecological techniques with policy-relevant research aimed at mitigating desertification. His selection into the Innovation Team in Key Fields by the Ministry of Science and Technology is a testament to his national recognition. Moving forward, he aims to expand research on ecosystem services under climate extremes, green technology in arid zones, and cross-border collaborations to promote sustainable restoration practices globally. His future contributions are expected to further solidify the role of cyanobacterial biotechnology in ecological engineering.

📖Notable Publications

Maize stalk mulching significantly influences the cyanobacterial communities and alpha diversity in artificial cyanobacterial crusts in arid sandy areas
Applied Soil Ecology
2025

Links between soil moisture, herbaceous plant community characteristics, and soil enzymes under drought and non-drought periods after cyanobacterial inoculation
Journal of Environmental Management
2025

Co-development of biocrust and herbaceous plant communities in sandy areas after cyanobacterial inoculation
Plant and Soil
2025

Effects of inoculum condition and different material mulches on the colonization of artificial cyanobacterial crusts
Shengtai Xuebao
2025

Hydraulic mechanism of limiting growth and maintaining survival of desert shrubs in arid habitats
Plant Physiology
2024

Cumulative effects of experimental nitrogen deposition on soil chemistry in a desert steppe: A 12-year field study
Science of the Total Environment
2024

Qinhong Wei | Catalysis | Best Researcher Award

Published on by Analytical Chemistry

Assoc. Prof. Dr. Qinhong Wei | Catalysis | Best Researcher Award

Zhejiang Ocean University, China

👨‍🎓Profiles

🎓 Early Academic Pursuits

Dr. Qinhong Wei began his academic journey with a Bachelor of Chemical Engineering at Shenyang University of Chemical Technology, China. He then pursued a Master’s degree in Industrial Catalysis at the same institution, cultivating a foundational understanding of chemical processes and catalyst design. Driven by a keen interest in advanced materials and catalysis, he advanced to earn his Ph.D. in Nano New Functional Materials Science from the University of Toyama, Japan. During this period, Dr. Wei developed expertise in the synthesis and application of nano-scale materials, setting the stage for his future specialization in heterogeneous catalysis.

🧪 Professional Endeavors

Following his doctoral studies, Dr. Wei joined the Chinese Academy of Sciences’ Institute of Coal Chemistry as a Postdoctoral Researcher, where he worked on catalytic transformations of carbon-based feedstocks. He was later appointed as Associate Professor and Head of the Department of Chemical Engineering at Zhejiang Ocean University, Zhoushan, China. In this leadership role, Dr. Wei not only drives research initiatives but also oversees the academic and developmental direction of the department.

🔬 Contributions and Research Focus

Dr. Wei’s research revolves around the design of catalytic materials, reaction pathway engineering, and catalytic conversion of low-carbon molecules. His work integrates heterogeneous catalysis, especially in C1 chemistry, and extensively employs in-situ characterization techniques to probe catalyst behavior under real conditions. He has made significant contributions in areas such as:

  • Hydrogenation of syngas and CO₂ to produce liquid fuels and value-added chemicals (e.g., olefins, aromatics, and oxygenates)

  • Propane dehydrogenation (PDH) to yield propylene, a critical feedstock in the polymer industry

  • Methane conversion for enhanced utilization of natural gas

  • Catalyst design for sustainable energy solutions aligned with green chemistry principles

📊 Research Projects and Honors

Dr. Wei has led over 10 research projects, securing competitive funding from prestigious bodies including the National Natural Science Foundation of China, China Postdoctoral Science Foundation, and Zhejiang Provincial Natural Science Foundation. His excellence in scientific innovation has earned him numerous accolades, such as the Leading Talent (Young Excellent Talent) distinction in Zhejiang Province and two Zhoushan Natural Science Excellent Paper Awards, reinforcing his reputation as a forward-thinking leader in chemical engineering.

🌍 Impact and Influence

With over 30 publications in top-tier international journals, such as Nature Communications, Applied Catalysis B: Environmental, Chemical Engineering Journal, and Fuel, Dr. Wei’s research significantly advances the field of low-carbon catalytic conversion. His work provides both theoretical insights and practical pathways for clean fuel synthesis, carbon dioxide utilization, and natural gas valorization, directly contributing to global sustainability goals and carbon neutrality efforts.

📚 Academic Citations and Collaborations

Dr. Wei’s growing citation record and publication impact demonstrate the high value of his research in the academic community. His collaboration with both domestic and international research institutions strengthens cross-border scientific exchange and facilitates the integration of cutting-edge catalytic techniques into industrial applications.

🧠 Technical Skills and Expertise

Dr. Wei is proficient in the synthesis and in-situ analysis of catalytic systems, with technical strengths spanning material characterization, reaction engineering, and mechanistic investigation of catalytic pathways. His ability to bridge the gap between material science and industrial catalysis allows him to design catalysts with high selectivity, stability, and energy efficiency.

👨‍🏫 Teaching and Mentorship

As Head of Department at Zhejiang Ocean University, Dr. Wei actively contributes to curriculum development, student mentoring, and research training. His commitment to academic excellence is reflected in his support for young researchers, guiding them through experimental work, thesis development, and participation in funded research projects.

🌱 Legacy and Future Contributions

Looking ahead, Dr. Wei aims to expand his contributions in the fields of green catalysis, CO₂ reduction, and circular carbon economy technologies. His research vision emphasizes integrated energy systems, advanced materials for clean fuels, and mechanistic studies that push the frontiers of catalytic science. With a strong foundation of academic rigor, industrial relevance, and mentorship, Dr. Wei is poised to make enduring contributions to chemical engineering and sustainable development.

📖Notable Publications

Pre-phase transition of a Cu₂−xS template enables polymorph selective synthesis of MS (M = Zn, Cd, Mn) nanocrystals via cation exchange reactions
Authors: Yan Zhang, Shaobo He, Qingxia Zhang, Hongtao Zhang, Jinchen Zhou, Xing Yang, Qinhong Wei, Lihui Chen
Journal: Nanoscale
Year: 2024

Electronic structure modulation of metallic Co via N-doped carbon shell and Cu-doping for enhanced semi-hydrogenation of phenylacetylene to styrene
Authors: Feixiang Chang, Yize Wang, Haoting Yan, Jiashi Wang, Renkun Zhang, Xianmin Zheng, Qinhong Wei, Luhui Wang, Jing Xu
Journal: Separation and Purification Technology
Year: 2024

Atomically dispersed Feδ⁺ anchored on nitrogen-rich carbon for enhancing benzyl alcohol oxidation through Mott-Schottky effect
Authors: Qinhong Wei, Jiashi Wang, Wenzhong Shen
Journal: Applied Catalysis B: Environmental
Year: 2021

Metal 3D printing technology for functional integration of catalytic system
Authors: Qinhong Wei, Hangjie Li, Guoguo Liu, Yingluo He, Yang Wang, Yen Ee Tan, Ding Wang, Xiaobo Peng, Guohui Yang, Noritatsu Tsubaki
Journal: Nature Communications
Year: 2020

Constructing Co@N-doped graphene shell catalyst via Mott-Schottky effect for selective hydrogenation of 5-hydroxylmethylfurfural
Authors: Jiashi Wang, Qinhong Wei, Qingxiang Ma, Zhongya Guo, Fangfang Qin, Zinfer R. Ismagilov, Wenzhong Shen
Journal: Applied Catalysis B: Environmental
Year: 2020

Coal tar- and residual oil-derived porous carbon as metal-free catalyst for nitroarene reduction to aminoarene
Authors: Qinhong Wei, Fangfang Qin, Qingxiang Ma, Wenzhong Shen
Journal: Carbon
Year: 2019

Metal-free honeycomb-like porous carbon as catalyst for direct oxidation of benzene to phenol
Authors: Qinhong Wei, Huailin Fan, Fangfang Qin, Qingxiang Ma, Wenzhong Shen
Journal: Carbon
Year: 2018

Naikun Shen | Green Chemistry | Best Researcher Award

Published on by Analytical Chemistry

Prof. Dr. Naikun Shen | Green Chemistry | Best Researcher Award

Guangxi Minzu University, China

👨‍🎓Profiles

  • Scopus Profile
  • ORICD Profile

    🎓 Early Academic Pursuits

    Dr. Naikun Shen’s academic journey began with a deep curiosity about the microbial world and its hidden potential. He pursued his doctoral degree in microbiology, laying a strong foundation in microbial ecology and biochemical processes. During his early academic years, he demonstrated a keen interest in sustainable biotechnologies, particularly the use of microorganisms in environmental remediation and resource recovery. His scientific acumen and commitment to eco-innovation were evident even in his formative years, setting the stage for a lifelong pursuit of environmentally friendly research solutions.

    👨‍🔬 Professional Endeavors

    Dr. Shen currently serves as a Professor and Department Head at Guangxi Minzu University, where he is also a respected master’s supervisor. Over the years, he has developed a specialized niche in the development and utilization of microbial resources, spearheading research programs that convert waste into valuable bio-products. His professional career is marked by strategic leadership and scientific rigor. With over seven major provincial and ministerial-level projects under his leadership, Dr. Shen has successfully translated research from the lab into real-world applications. In addition, he has contributed to two consultancy and industry collaborations, demonstrating the real-world viability of his innovations. His work often bridges academia and applied science, especially in green chemistry and bio-conversion technologies.

    🧪 Contributions and Research Focus

    Dr. Shen’s research is centered on the biodegradation of waste resources, particularly shrimp and crab shells and feathers. By constructing unique microbial communities and leveraging enzyme-based methods, his team efficiently breaks down these wastes into amino acids, lactate calcium, and chitin—critical inputs for various industrial and agricultural applications. What sets his work apart is the completely environmentally friendly approach: the degradation process relies solely on microbial strains or enzymes, without producing secondary pollution. This has positioned his work as a model for sustainable waste valorization in the context of circular economy and green manufacturing. Moreover, Dr. Shen’s research on transforming chitin into chitin oligosaccharides and shell oligosaccharides has opened new avenues in biomedicine, agriculture, and environmental protection. His commitment to practical, clean, and scalable solutions has helped push the boundaries of microbial resource utilization.

    🏆 Accolades and Recognition

    Dr. Shen’s exceptional contributions have not gone unnoticed. He is a recipient of the Second Prize of the Guangxi Science and Technology Progress Award (4/9)—a prestigious recognition that reflects the regional and national significance of his work. In addition to accolades, Dr. Shen holds 12 published or in-process Chinese patents, demonstrating the novelty and commercial potential of his innovations. His publication record includes over 100 academic papers, of which 28 are indexed in SCI journals, underscoring both the depth and global reach of his research.

    🌏 Impact and Influence

    Dr. Shen’s work has made a profound impact on multiple fronts:

    • Environmental sustainability: His research contributes significantly to waste reduction and resource recovery.

    • Green chemistry: His microbial methodologies serve as models for low-impact industrial processes.

    • Academic advancement: His research outputs and mentorship continue to nurture the next generation of scientists.

    While he does not currently hold formal editorial or collaborative positions, his published work has influenced the scientific community through high citation value and practical utility.

    🌱 Legacy and Future Contributions

    Dr. Naikun Shen’s legacy lies in his pioneering approach to microbial biotechnology for environmental applications. As the global scientific community turns increasingly toward sustainable solutions, his work will remain relevant and impactful. Looking ahead, Dr. Shen aims to expand his research into biomedical applications of chitin derivatives, enhance industry-university partnerships, and contribute further to policy-oriented innovations in green technology. His vision includes developing globally scalable microbial systems for biodegradable waste management, thus helping nations meet climate and sustainability goals.

    📖Notable Publications

    Enhanced chitinase production by Bacillus paralicheniformis GXMU-J23.1: Optimization, genomic insights, and chitin degradation mechanism
    Authors: Xie, J.; Zhang, L.; Yang, K.; Zhang, H.; Jiang, M.; Liao, S.; Yang, D.; Shen, N.
    Journal: Bioresource Technology
    Year: 2025

    Halobacillus rhizosphaerae sp. nov., a moderately halophilic bacterium with protease activities isolated from the rhizosphere soil of the mangrove Acanthus ebracteatus
    Authors: Yin, D.; Xie, J.; Liu, R.; Song, C.; Liang, Y.; Huang, H.; Huang, Y.; Long, R.; Shen, N.; Yan, B. et al.
    Journal: Antonie van Leeuwenhoek, International Journal of General and Molecular Microbiology
    Year: 2025

    A Comparative Transcriptome Analysis Unveils the Mechanisms of Response in Feather Degradation by Pseudomonas aeruginosa Gxun-7
    Authors: Song, C.; Liu, R.; Yin, D.; Xie, C.; Liang, Y.; Yang, D.; Jiang, M.; Zhang, H.; Shen, N.
    Journal: Microorganisms
    Year: 2024

    A new strain of Rhodococcus indonesiensis T22.7.1<sup>T</sup> and its functional potential for deacetylation of chitin and chitooligsaccharides
    Authors: Xie, J.; Yin, D.; Ou, J.; Lu, B.; Liao, S.; Yang, D.; Zhang, H.; Shen, N.
    Journal: Frontiers in Microbiology
    Year: 2024

    Antimicrobial mechanisms and antifungal activity of compounds generated by banana rhizosphere Pseudomonas aeruginosa Gxun-2 against fusarium oxysporum f. sp. cubense
    Authors: Lu, J.; Huang, Y.; Liu, R.; Liang, Y.; Zhang, H.; Shen, N.; Yang, D.; Jiang, M.
    Journal: Frontiers in Microbiology
    Year: 2024