Mr. Yongshan Du 🇨🇳 is an Associate Professor at the School of Business Administration, China University of Petroleum–Beijing at Karamay. His research focuses on green finance 🌱, energy policy ⚡, digital finance 💻, and sustainable development 🌍. He employs advanced econometric models 📊 like PSM-DID and Generalized Synthetic Control to evaluate policy impacts on corporate ESG performance, urban innovation, and eco-tourism planning. Mr. Du’s interdisciplinary work bridges economics, environmental science, and technology, contributing to both academic and policy landscapes. His impactful publications and commitment to carbon neutrality 🌿 make him a leading voice in environmental and financial research 🔬📘.

Mr Yongshan Du, China University of Petroleum-Beijing at Karamay, China

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Experience 💼

Mr. Yongshan Du serves as an Associate Professor at the School of Business Administration, China University of Petroleum–Beijing at Karamay 🏫🇨🇳. His academic title reflects his expertise in green development 🌍, energy economics ⚡, and digital transformation 📈. A pioneer in applying advanced econometric tools 🧮 to real-world environmental and policy challenges, he leads impactful research projects on carbon trading, ESG performance 🏢✅, and eco-entrepreneurship 💡🌿. As a scholar deeply involved in interdisciplinary innovation 💼🔬, his title encapsulates both his academic standing and leadership in advancing sustainable solutions for future economic and environmental resilience 🌐📚.

Research Focus 🔎

Mr. Yongshan Du’s research focuses on the dynamic intersections of Digital Finance 💻💰, Energy Finance ⚡📊, and Green Innovation 🌿🏭. He explores how technology-driven financial systems can support low-carbon transitions, ESG improvements, and sustainable development goals 🌍🔋. His work critically evaluates carbon trading policies, green entrepreneurship, and eco-efficiency in tourism and urban economies 🏙️🧳📉. By blending quantitative methods with policy relevance, Mr. Du contributes to reshaping economic and environmental governance through data-driven insights 📈🔎. His research promotes a greener, smarter financial future, influencing both academic circles and national policy-making platforms 🧠📑🇨🇳.

Publications 📘

“The Impact of Low-Carbon City Pilot Policies on Green Innovation Efficiency in Chinese Cities: An Empirical Analysis Based on the Multi-Period PSM-DID Model”
🧑‍🔬 Author: Yongshan Du
🔬 Focus: Green Innovation, Policy Impact, Urban Sustainability
📊 Method: Multi-Period Propensity Score Matching – Difference in Differences (PSM-DID)

📗 “Can Carbon Emission Trading Policy Improve Corporate ESG Performance? – An Empirical Test Based on the Generalized Synthetic Control Method”
🧑‍🔬 Author: Yongshan Du
🌍 Focus: Carbon Trading, ESG Performance, Environmental Economics
🧮 Method: Generalized Synthetic Control Method

🌲 “Evaluating the Sustainability of a Tourism System Based on Emergy Accounting and Emergetic Ternary Diagrams: A Case Study of the Xinjiang Kanas Tourism Area”
🧑‍🔬 Author: Yongshan Du
🏞 Focus: Sustainable Tourism, Emergy Analysis, Systems Ecology
📈 Tool: Emergy Accounting, Emergetic Ternary Diagrams

💡 “The Impact of Technology Finance Pilot Policies on the Quality of Urban Entrepreneurship in China”
🧑‍🔬 Author: Yongshan Du
🚀 Focus: Tech Finance, Urban Innovation, Policy Analysis
🏙 Context: Urban Entrepreneurship, Pilot Policy Impact

Dr Megumi Hirota | Materials Science | Lifetime Achievement Award

Published on 03/05/2025 by Material Scientist

Dr Megumi Hirota | Materials Science | Lifetime Achievement Award

Dr. Megumi Hirota 🎓 is a distinguished Japanese scientist with over 40 years of groundbreaking contributions in defense technology, magnetic detection ⚓, superconductivity ❄️, and underwater electromagnetics 🌊. She earned her Doctor of Science from the University of Tokyo and served as Deputy Director at Japan’s Ministry of Defense 🛡️. Post-retirement, she led research in private sector roles and remains active in scientific communities like NMURC and the Cryogenics Society of Japan 🔬. With numerous international presentations 🌐 and interdisciplinary publications 📚, Dr. Hirota exemplifies scientific excellence, leadership, and lifelong dedication to advancing research. 🌟

Dr Megumi Hirota, Naval Ship M&UEP R.C., NPO, Japan

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Education 🎓

Dr. Megumi Hirota 🎓 possesses an exceptional academic background rooted in some of Japan’s most prestigious institutions. She began her scientific journey at the Tokyo University of Education 🏫, earning her Bachelor’s degree in Science (1968–1972) and then a Master of Science (1972–1974) 🧪. Her pursuit of advanced knowledge led her to Tokyo University, where she conducted doctoral research from 1974 to 1979. She was officially awarded the Doctor of Science degree in March 1981 🥼📜. This solid educational foundation laid the groundwork for her distinguished career in defense research, magnetometry, and applied physics ⚛️🔍.

Scientific Societies

Dr. Megumi Hirota 🔬 is a committed member of Japan’s premier scientific communities, reflecting her long-standing engagement with cutting-edge research. Since March 24, 1995, she has been an active member of the Japan Society of Applied Physics ⚛️, contributing to the advancement of applied science and technology. Further emphasizing her specialization, she joined the Cryogenics and Superconductivity Society of Japan ❄️🧲 on April 1, 2018. These affiliations showcase her deep expertise in superconductivity, magnetism, and cryogenic technologies, and highlight her continuous efforts to stay at the forefront of scientific innovation and collaboration across disciplines 🤝📚.

Private Sector and Organizational Leadership

Dr. Megumi Hirota ⚓ has made significant contributions in the private sector and nonprofit research organizations. From 2010 to 2013, she led maritime equipment research as Head of the Research Office at Sampa Kogyo K.K. ⚙️🌊. Later, she served as a consultant for OYO Corporation (2015–2016), specializing in signal analysis for ground-penetrating radar 📡🌍. Her leadership extended to the Naval Ship Magnetic & Underwater Electric Potential Research Committee (NMURC), where she served as Vice Representative (2012–2014), then Representative (2014–2017), and continues to lead as the current Representative since 2017 in this nonprofit organization 🧲🤝📘.

Conference Contributions

Dr. Megumi Hirota 🎓 has an outstanding record of conference contributions, showcasing her pioneering work in superconductivity, magnetic detection, and naval technology. From the 1987 International Superconductivity Electronics Conference in Tokyo to multiple MARELEC 🌊 and JSAP ⚛️ meetings, she has presented groundbreaking research on SQUID magnetometers, underwater electric field detection, and high-temperature superconducting (HTS) cables. Her work bridges science and defense, reflecting over three decades of innovation across Japan 🇯🇵, Europe 🇫🇷🇬🇧🇩🇪, and the U.S. 🇺🇸. Dr. Hirota’s continuous presence at top-tier global conferences demonstrates her enduring impact and leadership in the field of marine electromagnetic research 🌐🔬.

Research Focus 🔬

Dr. Megumi Hirota’s research 🔬 centers on magnetic detection, superconductivity, and marine electromagnetics 🌊. Her early work explored biochemical systems using Mössbauer spectroscopy 🧫, advancing knowledge of cytochrome C₃ and bacterial cells. Transitioning to applied physics, she pioneered the use of SQUID magnetometers 🧲 for underwater electric field analysis and naval detection systems 🚢. A leader in High Temperature Superconducting (HTS) cable technology ⚡, Dr. Hirota’s contributions enhance ship deperming methods and align with Sustainable Development Goals 🌱. Her interdisciplinary expertise bridges biochemistry, physics, and defense technology, making her a pivotal figure in applied superconductivity and marine research 🌍🧪.

Publications 📘

“Kinetics of cytochrome C3 reduction with hydrogenase: A Mössbauer effect study”
👩‍🔬 Authors: Megumi Utsuno (Hirota), Kazuo Ono, Keisuke Kimura, Hiroo Inokuchi, Tatsuhiko Yagi
📘 Journal: Journal of Chemical Physics, Vol. 72, No. 4, p. 2264 (1980)
🔬🧪💥

“Application of Mössbauer spectroscopy to Wet Bacterial Cells”
👩‍🔬 Authors: Megumi Utsuno (Hirota), Keisuke Kimura, Kazuo Ono, Hiroo Inokuchi, Tatsuhiko Yagi
📘 Journal: Journal of Biochemistry, Vol. 87, No. 4, p. 1257 (1980)
🧫🔍🧬

“Heme–Heme magnetic interaction of cytochrome C3 studied by Mössbauer effect”
👩‍🔬 Authors: M. Utsuno (Hirota), K. Ono, K. Kimura, H. Inokuchi, T. Yagi
📘 Journal: Journal de Physique, Vol. 41, No. 9, p. 957 (1980)
🧠🧲🧪

“Measurement and Analysis of AC Underwater Electric Field”
👩‍🔬 Authors: Y. Teranishi, M. Hirota, K. Nanaura
📘 Conference Proceedings: Undersea Defence Technology, July 4–6, 1995, p. 371 (Cannes)
🌊⚡🔧

“Study on Underwater Electric Fields of a Dipole Moment in Shallow Water”
👩‍🔬 Authors: M. Hirota, Y. Teranishi, K. Nanaura
📘 Journal: Japanese Journal of Applied Physics, Vol. 35, Part 1, No. 5A, p. 2870 (May 1996)
🌊📏📡

“Magnetic Detection of a Surface Ship by an Airborne LTS SQUID MAD”
👩‍🔬 Authors: M. Hirota et al.
📘 Journal: IEEE Transactions on Applied Superconductivity, Vol. 11 (2001), p. 884–887
🚢🧲🚁

“High Temperature Superconducting (HTS) Cable Application to Ship Deperming Work”
👩‍🔬 Author: M. Hirota
📘 Journal: Journal of Physics: Conference Series, Vol. 1559 (2020), 012132
⚡🧊🛳️

Mr. Weijun Chen | Optical Materials | Best Researcher Award

Published on 23/04/202524/04/2025 by Material Scientist

Mr. Weijun Chen | Optical Materials | Best Researcher Award

Mr. Weijun Chen is an Associate Professor at the School of Physics, Changchun University of Science and Technology. He earned his Ph.D. in Materials Science from Tianjin University of Technology, specializing in optoelectronic materials and photonic systems 🔍🌠. His research focuses on light field modulation, optoelectronic imaging, and perovskite solar cells ⚡📷. He has published in top-tier journals and authored a book on transient optoelectronic devices. With funding from national foundations and a growing citation record 📈, Mr. Chen is driving innovation in optical and energy materials, making him a rising star in the field of materials science 🚀.

Mr. Weijun Chen, Changchun University of Science and Technology, China

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Education 🎓

Mr. Weijun Chen holds a Ph.D. in Materials Science from Tianjin University of Technology, with a focus on advanced materials for optoelectronic applications 🌟📘. Currently a faculty member at Changchun University of Science and Technology 🏫, his academic journey merges materials engineering, photonics, and device physics to develop next-generation imaging systems and optical signal control technologies 💡📷. His research addresses critical challenges in optoelectronic imaging and light field modulation, contributing to innovative applications in sensors, communication, and energy devices ⚡🔍. This strong academic foundation supports his impactful work in advanced photonic technologies.

Experience 🏛️

Mr. Weijun Chen holds a Ph.D. in Materials Science from Tianjin University of Technology, where he focused on advanced materials for optoelectronic applications 🌟🔬. Currently serving as a faculty member at Changchun University of Science and Technology, he leads innovative research in optoelectronic imaging devices and light field modulation technologies 📷🔧. His interdisciplinary expertise spans materials engineering, photonics, and device physics, enabling the development of high-performance imaging systems and optical signal control platforms 🚀💡. Through cutting-edge experimentation and theory, Mr. Chen continues to contribute meaningfully to the future of smart optics and next-gen imaging solutions 🌐📈.

Research Contributions 🔬

Mr. Weijun Chen’s research is centered on the application of advanced optical materials, particularly within the realms of optoelectronic devices and light-field modulation 🧠💡. He has made significant strides in understanding the propagation dynamics and nonlinear interaction mechanisms of Airy beams 🌪️📡, which are crucial for beam shaping and precise optical control. Additionally, his work on high-performance perovskite solar cells focuses on enhancing efficiency and surface passivation for sustainable energy applications ☀️🔋. These innovations contribute to the future of smart photonic systems and energy-harvesting technologies, placing him at the forefront of materials science and optical engineering 🚀🌍.

Research Focus 🔍

Mr. Weijun Chen specializes in optoelectronic imaging devices and light field modulation, pioneering innovations that merge materials science, optics, and device engineering 🌟📡. His work involves designing and analyzing advanced systems for capturing and controlling light at high precision, enabling improved imaging technologies and adaptive optics 🎯🧠. By exploring novel light propagation techniques—such as Airy beamsand integrating them with photonic materials, he aims to develop next-generation optical devices for applications in medical imaging, communications, and energy conversion 💡📷⚙️. His research drives transformative advances in how we manipulate and utilize light for practical and scientific breakthroughs 🚀🌍.

Publications 📘

A Universal Gain Theory of the Multiplying Layer in EBCMOS Based on Elastic and Inelastic Scattering
👨‍🔬 Authors: Wene Chen, Weijun Chen, De Song, Peng Zhao, Ye Li, Shuhan Li, Chongxiao Wang, Rongxuan Liang, JiPeng Yue
📚 Journal: Nuclear Instruments and Methods in Physics Research Section B

Defect Solitons Supported by Optical Lattice with Saturable Nonlinearity in Fractional Schrödinger Equation
👨‍🔬 Authors: Shengyao Wang, Tuanjie Xia, Weijun Chen, Peng Zhao
📚 Journal: Physica Scripta

Interaction of Airy Beams Modeled by the Fractional Nonlinear Cubic-Quintic Schrödinger Equation
👨‍🔬 Authors: Weijun Chen, Cheng Lian, Yuang Luo
📚 Journal: Physica Scripta

Dynamics of Interacting Airy Beams in the Fractional Schrödinger Equation with a Linear Potential
👨‍🔬 Authors: Weijun Chen, Tao Wang, Jie Wang, Yining Mu
📚 Journal: Optics Communications

These publications highlight Mr. Chen’s impactful research in nonlinear optics, beam dynamics, and quantum-inspired optical modeling key areas in modern optoelectronic science.

Assist. Prof. Dr. Olga Fernández-García | Shape Memory Alloys | Best Researcher Award

Published on 23/04/202524/04/2025 by Material Scientist

Assist. Prof. Dr. Olga Fernández-García | Shape Memory Alloys | Best Researcher Award

Dr. Olga Fernández-García is a passionate psychologist and researcher at the Universitat de València, where she earned her Ph.D. with international distinction 🏅. Her work focuses on sexual health, affective-sexual education, and the psychological well-being of vulnerable groups, especially adolescents in protective systems and individuals with intellectual disabilities 👩‍🏫💖. She has authored over 20 impactful publications 📚, led pioneering studies on sexting and victimization, and engaged in international collaborations 🌍. With a strong teaching record and dedication to social change, Dr. Fernández-García is a rising leader in applied psychology and community-focused research 🌟🔍

Assist. Prof. Dr. Olga Fernández-García, University de valencia, Spain

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Education 🎓

Dr. Olga Fernández-García holds a Ph.D. in Psychology Research from the Universitat de València (2019–2023) 🧪📖, earned with international distinction. She also completed a Master’s Degree in General Health Psychology (2017–2018) 💊🧍 and a Postgraduate Diploma in Child and Adolescent Clinical Psychology from Universitat Jaume I (2016–2017) 👩‍👧‍👦🧠. Her academic journey began with a Bachelor’s in Psychology from the Universitat de València (2012–2016) 📚🇪🇸. This robust and specialized educational path has equipped her with deep expertise in mental health, clinical assessment, and intervention, especially among youth and vulnerable populations 🧩❤️.

Experience 🏛️

Dr. Olga Fernández-García is Principal Investigator of the PROTESEXT project 🧑‍🔬📱, which develops interventions to prevent sexting and online sexual victimization among youth in protective services. She has contributed to major projects like PID2021-127353OB-I00 on online therapy for cybersex addiction and a study on the mental health impact of COVID-19 on adults with intellectual disabilities 🧠💻. She also works on developing sexual health tools and educational programs for individuals with intellectual disabilities and assessing sexual health in children within welfare systems 👶📈. Her applied, data-driven approach drives meaningful impact in psychological and sexual health research. ❤️📚

Achievements 🏆

She was selected for the prestigious FPU (Formación de Profesorado Universitario) program, which supports the training of future university educators and researchers in Spain a recognition of her academic merit and potential.

Seminars & Conference 🎤

Throughout her academic and professional career, she has actively participated in seminars and academic conferences related to developmental psychology, sexual education, and adolescent health. While specific events are not listed in the current record, her roles and ongoing research imply a strong presence in academic forums and collaborative research networks.

Research Focus 🔬

Dr. Olga Fernández-García’s research centers on sexual health, affective-sexual education, and psychological well-being, with a strong emphasis on vulnerable populations such as individuals with intellectual disabilities and adolescents in protective services 🧑‍🤝‍🧑👧. Her work includes the development of psychometric tools like ISK-ID and ASEXID for assessing sexual knowledge and attitudes, and studies linking academic perfectionism to mental health outcomes such as suicidal ideation among university students 🎓📊. Through interdisciplinary and inclusive approaches, she advances both theoretical understanding and applied practices in psychology, sexuality, and education, ensuring her research has real-world social impact 🌍💡📈.

Publications 📘

Academic perfectionism, psychological well-being, and suicidal ideation in college students
Authors: O. Fernández-García, M.D. Gil-Llario, J. Castro-Calvo, V. Morell-Mengual, et al.
Year: 2022
Journal: International Journal of Environmental Research and Public Health, 20(1), 85

Development and psychometric properties of an instrument for the Assessment of Sexual Behaviour and Knowledge of people with Intellectual Disability
Authors: M.D. Gil‐Llario, V. Morell‐Mengual, O. Fernández‐García, J. Castro‐Calvo, et al.
Year: 2022
Journal: Journal of Applied Research in Intellectual Disabilities, 35(4), 976–987

Estimating sexual knowledge of people with mild intellectual disability through a valid and reliable assessment scale: The ISK‐ID
Authors: M.D. Gil‐Llario, J. Castro‐Calvo, O. Fernández‐García, M. Elipe‐Miravet, et al.
Year: 2022
Journal: Journal of Applied Research in Intellectual Disabilities, 35(4), 988–1000

Prevalencia y caracterización del sexismo en el contexto español
Authors: O. Fernández-García, M.D. Gil-Llario, R. Ballester-Arnal
Year: 2022
Journal: Revista Contexto & Educação, 37(117), 118–127

Validation of a tool to assess attitudes towards sexuality of individuals with intellectual disability (ASEXID): A preliminary study
Authors: M.D. Gil-Llario, O. Fernández-García, J. Castro-Calvo, L. Caballero-Gascón, et al.
Year: 2021
Journal: Sexuality and Disability, 39, 147–165

Prof DIBAKAR DATTA | Materials for Energy Applications | Energy Materials Recognition

Published on 22/04/2025 by Material Scientist

Prof DIBAKAR DATTA | Materials for Energy Applications | Energy Materials Recognition

🔬 Prof. Dibakar Datta is an Associate Professor at NJIT and a leading expert in ⚡ energy materials, 2D nanomaterials, and electrochemical systems. He earned his Ph.D. from 🏛️ Brown University with a focus on mechanics, physics, and chemistry. A former postdoc at 🌉 Stanford University, he has received prestigious honors like the 🏅 NSF CAREER Award and ASME “Rising Star.” Prof. Datta serves on editorial boards of top journals and leads cutting-edge research in 🔋 energy storage, 💻 multiscale modeling, and 🔎 materials recognition. His global academic exposure and interdisciplinary expertise make him a key innovator in sustainable technologies. 🌍🧪

Prof DIBAKAR DATTA, New Jersey Institute of Technology, United States

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Education 🎓

Prof. Dibakar Datta holds a Ph.D. in Mechanics of Solids and Structures from 🏛️ Brown University, with minors in ⚛️ Physics and 🧪 Chemistry, mentored by Nobel Laureate Prof. J. Michael Kosterlitz. He was a visiting Ph.D. scholar at 🧬 University of Pennsylvania. He earned an M.S. in Computational Mechanics from 🇪🇸 UPC Barcelona and 🇫🇷 Ecole Centrale de Nantes, including a research internship at EDF Paris 🖥️. He also holds an M.E. in Structural Engineering from 🇮🇳 IISc Bangalore, and a B.E. in Civil Engineering from IIEST, India 🏗️. His global training spans India, Europe, and the USA 🌍📘.

Professional Experience 🏛️

Prof. Dibakar Datta serves as a Senator at 🇺🇸 New Jersey Institute of Technology (NJIT), collaborating with university leadership on strategic policies 🏛️📜. As 🎓 Graduate Program Director for Mechanical Engineering, he oversees Ph.D. admissions, examinations, course design, and assistantship allocations 🎯📚. He also chairs student progress monitoring and academic appeals 🧾👨‍🎓. Additionally, he is a key member of the 🖥️ High-Performance Computing Advisory Board, instrumental in restructuring NJIT’s HPC infrastructure, developing equitable resource allocation policies, and reviewing computational research proposals ⚙️🔬. His leadership enhances both academic excellence and research capabilities at NJIT 💡🌐.

Awards & Achievements 🏆

Prof. Dibakar Datta is a globally recognized researcher with prestigious accolades including the ⭐ 2024 ASME Rising Star at IMECE and 🧪 ACS NY Outstanding SEED Mentor. He received the 🧠 NSF CAREER Award (2023) for his groundbreaking work on electro-chemo-mechanics of energy materials. Recognized as an Emerging Investigator by both 🧲 JOM (TMS) and 🔋 ASME JEECS in 2022, he also earned the 🌍 IAAM Young Investigator Award. 🇬🇧 Honored at the UK Parliament with the Mahatma Gandhi Pravasi Samman (2017), his journey began with the 🎓 President of India Gold Medal (2006). His excellence is globally celebrated 🌐✨.

Seminars & Conference 🎤

Prof. Dibakar Datta has delivered numerous invited, keynote, and plenary talks at prestigious global venues 🌍. From 🇨🇦 WCCM in Vancouver and 🇺🇸 TMS in Orlando to 🇸🇪 European Advanced Materials Congress in Stockholm, his presentations span continents and cutting-edge topics in energy and computational materials 🔋🧠. He’s addressed elite institutions like Tesla HQ, IITs, Rutgers, and Lockheed Martin 🏢🛰️. His prolific conference contributions include talks at SES, ACS, MRS, and WCCM events 🧪📊. Prof. Datta’s impactful presence across academia and industry reflects his leadership and expertise in materials science and engineering 🌐⚛️.

Research Focus 🔬

Prof. Dibakar Datta’s research revolves around energy storage, nanomaterials, and computational materials science ⚡🧪. He explores defective graphene and 2D materials for advanced Li-, Na-, and Ca-ion batteries 🔋🧱. His groundbreaking work includes lithium plating in porous graphene, high-capacity anodes, and graphene-based environmental barriers 🌿🔍. Combining atomistic simulations and reactive force field modeling, he deciphers mechanisms in amorphous silicon and graphene nanosacks 🧠🧯. Prof. Datta’s contributions bridge fundamental science and applied energy solutions, pushing the frontier in sustainable and high-performance battery technologies 🔋🌍⚛️. His work impacts both materials design and clean energy innovations 🚀♻️.

Publications 📘

🔋 Title: Nano-silica electrolyte additive enables dendrite suppression in an anode-free sodium metal battery
👨‍🔬 Authors: Reena A. Panchal, Joy Datta, Vrushali R. Varude, Dibakar Datta, Nikhil A. Koratkar
📘 Journal: Nano Energy, 2024
🔧🧪⚡

📊 Title: Unlocking the potential of open-tunnel oxides: DFT-guided design and machine learning-enhanced discovery for next-generation industry-scale battery technologies
👨‍🔬 Authors: Joy Datta, Nikhil A. Koratkar, Dibakar Datta
📘 Journal: Energy Advances, 2024
🧠📈🔋💻

⚙️ Title: Electro-Chemo-Mechanical Modeling of Multiscale Active Materials for Next-Generation Energy Storage: Opportunities and Challenges
👨‍🔬 Author: Dibakar Datta
📘 Journal: JOM, 2024
🔬⚡📉📊

🔬 Title: Effects of Graphene Interface on Potassiation in a Graphene-Selenium Heterostructure Cathode for Potassium-Ion Batteries
👨‍🔬 Authors: Vidushi Sharma, Dibakar Datta
📘 Journal: ACS Applied Energy Materials, 2023
🌿⚡🧪🔋

Mr Valentin Menoury | Recycling and Circular Economy in Materials | Young Scientist Award

Published on 21/04/202521/04/2025 by Material Scientist

Mr Valentin Menoury | Recycling and Circular Economy in Materials | Young Scientist Award

Mr. Valentin Laurent Sylvain Menoury 🎓 is a passionate PhD researcher at INRAE, France 🇫🇷, focusing on sustainable alternatives to toxic solvents in agri-food systems 🌱. With an MSc in Animal Nutrition & Metabolism from Wageningen University 🇳🇱 (cum laude) and an engineering degree from ESA, Angers 🧪, his research explores biobased solvents like 2-methyloxolane for oilseed meal processing. He was the first to identify n-hexane residues in milk 🥛, a key food safety breakthrough. Valentin’s interdisciplinary work 🤝 blends science, sustainability 🌍, and innovation 💡, making him a rising star in agricultural and environmental research.

Mr Valentin Menoury, INRAE (French National Research Institute for Agriculture, Food and Environment), France

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Education 🎓

Valentin Menoury’s academic journey spans leading European institutions. He began at ESA, École Supérieure des Agricultures d’Angers (2016 – 2020), earning an Agricultural Engineering degree in Animal Science 🎓🌾. He then completed an MSc in Animal Sciences—Animal Nutrition & Metabolism at Wageningen University & Research (2019 – 2022), graduating cum laude 🥇🐄. Currently, he is pursuing a PhD in Animal Sciences at Université Clermont Auvergne (2022 – 2025), investigating biobased solvents for dairy cow nutrition 🔬🥛. This robust educational foundation underpins his expertise and demonstrates his commitment to advancing sustainable livestock nutrition and environmental stewardship 🌍🌿.

Experience 💼

Valentin Menoury is currently a PhD student at INRAe (UMR Herbivores), where he is leading research on sustainable agriculture 🌱. His project focuses on replacing hexane, a toxic solvent used in oilseed processing, with 2-methyloxolane, a biobased alternative, aiming to enhance dairy cow nutrition 🐄🥛. Valentin has also contributed to animal nutrition research during his time as a Master’s student at Wageningen University & Research 🏫, where he graduated cum laude. His work bridges environmental sustainability with animal science, advancing both animal health and milk quality 🌿💧.

Research Focus 🔬

Valentin Menoury’s research focuses on sustainable agriculture and dairy science 🌱🐄. He pioneers the replacement of hexane with 2-methyloxolane to produce defatted oilseed meals, studying their impact on dairy cow nutrition, digestibility, and welfare 🥛🔬. His work evaluates feed formulation, fermentation metrics, and milk quality parameters such as fatty acid profile and residue levels 📊🧪. Through controlled feeding trials and advanced statistical analyses, he ensures safe, high-quality dairy products while reducing environmental and health risks 🌍🛡️. Collaborating with international experts, he seeks to optimize feed rations and milk composition, driving innovation in sustainable dairy production 🚀. He drives future innovation.

Contributions 🚀

Mr. Menoury’s contributions center on replacing petroleum‑derived hexane with biobased 2‑methyloxolane for soybean meal defatting 🌱. He conducted controlled feeding trials in dairy cows, using analytical methods and collaboration with WUR statisticians, demonstrating the first detection of n‑hexane residues in milk from hexane‑defatted meals 🥛⚠️. This pioneering work underlines potential health risks and supports regulatory reevaluation by EFSA, ECHA, and BAuA in the EU 🇪🇺. By assessing feed digestibility and nutritional profiles, he established 2‑methyloxolane as an effective, safe alternative 🔬✔️. His findings promise to transform oilseed processing, enhance food safety, and advance sustainable agriculture with reduced environmental impact 🌾🚀.

Publications 📖

Replacing hexane with 2‑methyloxolane for defatting soybean meal fed to dairy cows: Effects on dairy performance and nitrogen partitioning
• Authors: V. Menoury; A. Ferlay; C. Ginane; G. Cantalapiedra‑Hijar; S. Lemosquet; D. Andueza; G.G.R. Leday; J. Engel; P. Nozière

Productive performance of dairy cows fed with 2‑methyloxolane‑defatted soybean, rapeseed, and sunflower meals
• Authors: V. Menoury; A. Ferlay; P. Nozière

2‑Methyloxolane can replace hexane for defatting soybean meal fed to cows without affecting dairy performance, rumen VFA proportions and major fatty acid secretion in milk
• Authors: V. Menoury; P. Nozière; G. Leday; J. Engel; A. Ferlay

Replacing hexane by 2‑methyloxolane for defatting soybean meal does not affect nitrogen utilisation
• Authors: V. Menoury; A. Ferlay; G. Cantalapiedra‑Hijar; S. Lemosquet; G. Leday; J. Engel; P. Nozière

Replacing hexane by 2‑methyloxolane for defatting soybean meal does not impair dairy cow performance
• Authors: V. Menoury; A. Ferlay; L. Jacques; V. Rapinel; P. Nozière

Assist. Prof. Dr Young Wook Seo | Biomaterials | Best Researcher Award

Published on 21/04/202521/04/2025 by Material Scientist

Assist. Prof. Dr Young Wook Seo | Biomaterials | Best Researcher Award

🩺 Assist. Prof. Dr. Young Wook Seo is a board-certified orthopedic surgeon and Clinical Assistant Professor at Ajou University School of Medicine, South Korea. Specializing in foot and ankle surgery and sports medicine 🦶⚽, he has authored 12 peer-reviewed publications 📚 and presented at top international conferences 🌍. Dr. Seo is recognized for his innovative research in ultrasound diagnostics and surgical techniques 🧠🔬. A recipient of multiple academic awards 🏅, he also plays a key role in teaching and surgical training 🎓. His dedication to advancing orthopedic science makes him a rising leader in the field. 🌟

Assist. Prof. Dr Young Wook Seo, Department of Orthopedic Surgery, Ajou University Hospital, Ajou University School of Medicine, South Korea

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Education 🎓

Dr. Young Wook Seo’s educational journey reflects a strong foundation in medical science and clinical excellence. He earned his M.D. 🩺 from Ajou University School of Medicine, followed by an M.S. in Medical Sciences from Ajou University’s Graduate School 🔬. Further advancing his academic pursuits, he completed Ph.D. coursework in the same department 🧠📖. This robust educational path not only highlights his commitment to lifelong learning and advanced medical knowledge but also supports his expertise in research and clinical innovation. His academic credentials position him as a dedicated scholar and a leader in orthopedic medicine. 🦴🌟

Instructor Appointments 🎤📚

Dr. Young Wook Seo has played a dynamic role as an instructor at both national and international medical forums. He has led sessions at the Korean Orthopaedic Ultrasound Society’s Fall and Winter Courses (2023, 2024) 🔍🦴, the prestigious IFFAS World Congress (2024) 🌍👣, and the Korean Orthopaedic Association Spring Meeting (2024) 🧠📊. His contributions also extend to the Korean Military Medical Association’s Continuing Education Program (2024) 🪖💉. These appointments reflect his expertise, teaching excellence, and dedication to advancing orthopedic education and diagnostics on a global stage. 🌐🏅

Honors and Awards🏅

Dr. Young Wook Seo has been widely recognized for his excellence in clinical care, academic contributions, and leadership. He received the Chairman’s Award from the Gyeonggi-do Medical Association and the Good Doctor Award from Ajou University Hospital in 2014 🏥👏. His service in the Navy earned him the Best Doctor Award (2019) and a Division Commander’s Commendation (2020) ⚓🎖. In 2024, he was honored with the Outstanding Faculty Award for inpatient care and the Academic Excellence Award from the Korean Orthopaedic Ultrasound Society, solidifying his impact in both education and innovation. 🦴📚✨

Conference Presentations 🌏

Dr. Young Wook Seo has showcased his innovative orthopedic research at top international conferences such as Eurospine, EFAS, IFFAS, AOFAS, and the Asia-Pacific Knee Society from 2017 to 2024 🦴🌍. His oral and poster presentations have elevated discussions on foot and ankle surgery, spine health, and sports medicine. Domestically 🇰🇷, he actively contributes to key Korean forums like the Korean Orthopaedic Association, Korean Foot and Ankle Society, and the Orthopaedic Ultrasound Society, consistently from 2016 to 2024. His active presence on both global and local platforms highlights his commitment to advancing orthopedic knowledge and clinical excellence. 📈📚✨

Research Focus 🔬

Dr. Young Wook Seo’s research centers on advancing orthopedic surgical techniques and postoperative pain management, particularly in foot and ankle surgery 🦶. His work explores the effectiveness of nerve blocks for pain relief, the use of ultrasonography for precise diagnosis, and innovations like arthroscopic ultrasound-assisted repairs for ligament injuries. He also investigates complications such as deep vein thrombosis (DVT) and presents minimally invasive approaches like nail-preserving tumor excisions. By integrating imaging, nerve block techniques, and surgical innovations, Dr. Seo contributes to safer, more efficient treatments for lower limb orthopedic conditions ⚙️🔍💉🧠.

Publications 📖

Analgesic effectiveness of continuous versus single-injection adductor canal block in addition to continuous popliteal sciatic nerve block for bimalleolar and trimalleolar ankle fracture surgery: Prospective randomized controlled trial
👨‍🔬 Authors: Young Uk Park, Han Bum Joe, Jong Wha Lee, Young Wook Seo
📖 Journal: Journal of Orthopaedic Science
📅 Published: January 2025

Incidence and Risk Factors of Deep Vein Thrombosis after Foot and Ankle Surgery
👨‍🔬 Authors: Young Uk Park, Hyong Nyun Kim, Jae Ho Cho, Taehun Kim, Gunoo Kang, Young Wook Seo
📖 Journal: Clinics in Orthopedic Surgery
📅 Published: 2024

AURA: Arthroscopic Ultrasound-Assisted All-Inside Repair of Lateral Ankle Ligament
👨‍🔬 Authors: Younguk Park, Young Wook Seo
📖 Journal: Arthroscopy Techniques
📅 Published: November 2024

Intraoperative assessment of hindfoot alignment using C-arm fluoroscopy
👨‍🔬 Authors: Young Uk Park, Jong Wha Lee, Jun Young Chung, Wan-Sun Choi, Taehun Kim, Young Wook Seo
📖 Journal: Journal of Orthopaedic Science
📅 Published: September 2024

Nail-preserving excision of glomus tumor in the second toe: Case report and literature review
👨‍🔬 Authors: Young Uk Park, Jongseong Han, Young Wook Seo
📖 Journal: Medicine
📅 Published: March 15, 2024

Use of Ultrasonography for Differential Diagnosis of Acute Ankle Injury
👨‍🔬 Authors: Young Uk Park, Jong Wha Lee, Young Wook Seo
📖 Journal: Journal of the Korean Orthopaedic Association
📅 Published: 2023

Mr. Ravirajsinh Jadav | Composite Materials | Best Researcher Award

Published on 21/04/202521/04/2025 by Material Scientist

Mr. Ravirajsinh Jadav | Composite Materials | Best Researcher Award

Ravirajsinh . Jadav is a passionate Ph.D. research scholar in Physics at Saurashtra University, specializing in electrochemical energy storage technologies. His work focuses on the development of advanced battery and supercapacitor materials, with an emphasis on sustainability and performance. With experience as a visiting professor and research supervisor, he brings a strong background in teaching, laboratory work, and academic leadership. Fluent in English, Hindi, and Gujarati, Ravirajsinh combines technical expertise with a dedication to innovation and knowledge-sharing in the field of physics.

Mr.Ravirajsinh Jadav , Gujarat Arts and Science College, India

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Education 🎓

Ravirajsinh J. Jadav is currently pursuing a Doctor of Philosophy (Ph.D.) in Physics at Saurashtra University, Rajkot, with an expected completion date of December 2024. His research focuses on metal sulphides and energy storage devices. He completed his Master of Science (M.Sc.) in Physics from Marwadi University, Rajkot, in 2020, achieving a CGPA of 8.3. Prior to that, he earned his Bachelor of Science degree in Physics from Saurashtra University, Rajkot, in 2018 with a CGPA of 7.3.

Experience 🏛️

Ravirajsinh has been actively engaged as a Research Scholar in Physics since January 2022 at Gujarat Arts & Science College, Ahmedabad. In this role, he supervises M.Sc. Physics research projects and contributes to the development of undergraduate physics curricula. He is also recognized for his strong expertise in physics lab practicals. Previously, he served as a Visiting Professor in Physics from January 2020 to December 2021 at Shree M. P. Shah Arts & Science College in Surendranagar. During this time, he designed and implemented innovative undergraduate courses, supervised student projects, and took on responsibilities in administration, examinations, and team leadership.

Research Focus 🔬

Ravirajsinh’s primary research interests lie in the field of electrochemical energy storage technologies. He is particularly focused on the development and optimization of battery and supercapacitor materials, including novel cathode and anode materials with high energy densities. His work also extends to identifying efficient materials for supercapacitors and integrating energy storage systems with sustainability-driven practices such as life cycle analysis and recycling strategies.

Publications 📘

Eco-Friendly Fabrication of Cr₂V₄O₁₃ Nanoparticles: A Promising Material for Photocatalysis, Electrochemical Sensing, and Supercapacitor Applications
Authors: Vijay Dubey, Ketan D. Parikh, Ravirajsinh J. Jadav, Devarshi H. Vyas, B. Avinash, C. R. Ravikumar, A. Naveen Kumar, H. Seshagiri Rao, Deepak Kumar, Suresh Ghotekar
Year: 2025
Journal: Journal of Cluster Science

Exploring the Potential Energy Storage Capability of NiCdS₂ Nanocomposites: Insights Through Promising Electrochemical, Impedance and Dielectric Analysis
Authors: Ravirajsinh J. Jadav, Ketan Parikh, Vijay R. Dubey, Devarshi H. Vyas
Year: 2025
Journal: Journal of Materials Science

Structural, Optoelectronic, and Antibacterial Properties of CuₓMn₁₋ₓS Nanoparticles Fabricated by Co-precipitation Approach
Authors: Devarshi Vyas, Ketan Parikh, Ravirajsinh Jadav, Vijay Dubey, Bharat Kataria, Suresh Ghotekar
Year: 2024
Journal: Journal of Sol-Gel Science and Technology

Recent Advancements in Fabrication of NdVO₄ Nanomaterials and Their Versatile Applications in Catalysis and Biomedical
Authors: Vijay Dubey, Ketan D. Parikh, Ravirajsinh J. Jadav, Devarshi H. Vyas, Yogita Abhale, Alejandro Pérez-Larios, Kun-Yi Andrew Lin, Ankush Chauhan, Suresh Ghotekar
Year: 2024
Journal: Topics in Catalysis

Electrical and Antibacterial Study of Hydrothermally Synthesized α-Manganese Sulphide Nanoparticles
Authors: Ravirajsinh J. Jadav, Devarshi H. Vyas, Vijay R. Dubey, Ketan D. Parikh, Keyur D. Bhatt, Chaitanya K. Jha
Year: 2024
Journal: IOSR Journal of Applied Physics (IOSR-JAP)

Prof. Dr Bin Zhang | Copper catalyst | Best Researcher Award

Published on 17/04/2025 by Material Scientist

Prof. Dr Bin Zhang | Copper catalyst | Best Researcher Award

Prof. Dr. Bin Zhang 🎓 is a leading expert in chemical engineering 🧪 and heterogeneous catalysis 🔬 at the State Key Laboratory of Coal Conversion. Holding a Ph.D. from ICC-CAS 🏛️, he is renowned for pioneering atomic layer deposition (ALD) technologies ⚙️ and the concept of operando mobile catalysis 💡. With 68+ high-impact publications 📚 and 12 patents 📄, his work bridges theory and application in green catalysis 🌱. Honored as an Outstanding CAS Youth Member 🏅 and a Talent Young Scientist 🌟, Prof. Zhang continues to drive innovation in energy and environmental science 🌍 through visionary research and leadership 👨‍🔬.

Prof. Dr Bin Zhang, Institute of Coal Chemistry Chinese Academy of Sciences, China

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Education 🎓

Dr. Bin Zhang embarked on his academic journey with a B.S. in Applied Chemistry 🧪 from Shaanxi Normal University in 2008, where he developed a strong foundation in chemical sciences. He then earned his Ph.D. in Chemical Engineering 🔬 from the Institute of Coal Chemistry, Chinese Academy of Sciences (ICC-CAS) in 2013, focusing on cutting-edge catalysis and energy-related research. His educational background laid the groundwork for his scientific excellence, leading to his roles as a Professor, Deputy Research Group Leader, 🌟 Outstanding Youth Promotion Member of CAS, and a Talent Young Scientist 🏅 in Shanxi Province.

Experience 🏛️

Dr. Bin Zhang 👨‍🔬 has over a decade of experience in advanced catalysis and chemical engineering 🔬. As a professor at the State Key Laboratory of Coal Conversion 🏛️, ICC-CAS, he plays a key role as deputy leader of a high-impact research group 💼. Since earning his Ph.D. in 2013 🎓, he has led pioneering work in atomic layer deposition (ALD) ⚙️ and green catalytic technologies 🌿. His expertise spans fundamental mechanisms to industrial applications 🔧. Recognized as an Outstanding Member of CAS’s Youth Promotion Association 🏅 and a Talent Young Scientist 🌟, Dr. Zhang continually drives research excellence in energy and materials science ⚡.

Research Focus 🔬

Prof. Dr. Bin Zhang 🔬 is at the forefront of catalysis and nanomaterials research, with a strong emphasis on atomic layer deposition (ALD) ⚛️ and energy conversion reactions 🔄. His work targets precise modulation of catalytic interfaces 🧪, including CO₂ hydrogenation, methylcyclohexane dehydrogenation, and mesoporous catalyst design. With novel concepts like multilayer epitaxial structures 🧱 and single-site nanozymes for biomedical applications 🧬, his research bridges material science, chemistry, and biotechnology. His projects not only push the boundaries of green chemistry 🌱 but also enable practical advancements in gas separation, oncotherapy, and sustainable fuel technologies ⛽⚡.

Publications 📘

Atomically distributed Al-F₃ nanoparticles towards precisely modulating pore size of carbon membranes for gas separation
👨‍🔬 Authors: Chen, Xiuling; Zhang, Zhiguang; Xu, Shan; He, Gaohong; Li, Nanwen
📘 Journal: Nature Communications, 2025

Single-site nanozyme with exposed unsaturated Cu–O₂ sites for tumor therapy by coordinating innate immunity and vasculature normalization
👨‍🔬 Authors: Liu, Yang; Zhao, Huan; Niu, Rui; Zhang, Hongjie; Zhao, Yanli
📘 Journal: Chem, 2025

Overturning CO₂ Hydrogenation Selectivity from CH₄ to CO by Strong Ru–FeOx Interaction Arising from a Multilayer Epitaxial Structure
👨‍🔬 Authors: Qi, Yuntao; Zhang, Bin; Xue, Dengrong; Meng, Fanchun; Qin, Yong
📘 Journal: ACS Applied Materials and Interfaces, 2024

The study of design and performance improvement of catalysts for the stepwise production of bicyclohexane from benzene and cyclohexene
👨‍🔬 Authors: Liu, Ruilin; Wang, Sen; Meng, Fanchun; Qin, Yong; Zhang, Bin
📘 Journal: Journal of Fuel Chemistry and Technology, 2024

Synthesize of ordered mesoporous carbon supported Pt–MoOx catalyst and its catalytic performance for methylcyclohexane dehydrogenation
👨‍🔬 Authors: Wang, Sen; Meng, Fanchun; Li, Zhuo; Qin, Yong; Zhang, Bin
📘 Journal: Petroleum Processing and Petrochemicals, 2024

Dr Kun Wang | Biomaterials | Best Researcher Award

Published on 17/04/202517/04/2025 by Material Scientist

Dr Kun Wang | Biomaterials | Best Researcher Award

Dr. Kun Wang is a renowned medical expert 👨‍⚕️ specializing in burn and wound repair 🔥🩹. He serves as Director at Weifang People’s Hospital and is a Chief Physician and Master’s Supervisor at Shandong Second Medical University 🎓. With expertise in treating complex burns, chronic wounds, and scars, he pioneers advanced treatments like laser therapy and minimally invasive surgery 💡🔬. Dr. Wang leads key research labs on tissue regeneration and has earned prestigious honors including the “Outstanding Physician of Shandong Province” 🏅. His dedication to medical innovation and education makes him a leading figure in clinical research and patient care in China 🇨🇳.

Dr Kun Wang, Weifang People’s Hospital, China

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Academic Leader 🎓

Dr. Kun Wang is a distinguished academic leader 🎓 in the field of burn and plastic surgery 🔥🧬. He heads the Key Medical Discipline of Shandong Province and Weifang City 🏥, and directs the Weifang Key Laboratory of Traditional Chinese Medicine for Sore Repair and Tissue Regeneration 🌿🔬. His contributions to clinical education and research have earned him top honors, including the 2023 “Outstanding Physician of Shandong Province” and the “Weiwei Craftsman” award 🏅. Through his leadership, he fosters innovation, mentors young professionals, and elevates standards in medical education and research across China 🇨🇳.

Experience 🩺

Dr. Kun Wang brings extensive clinical and academic experience 🩺📘 to the field of burn and wound care. As Director of the Department of Burns and Wound Repair at Weifang People’s Hospital and Chief Physician 👨‍⚕️, he leads innovations in burn treatment, chronic wound healing, and scar management 🔥🧪. He also mentors future medical professionals as a Master’s Supervisor 🎓 and heads the Burn Surgery Discipline Group at Shandong Second Medical University. Recognized for his excellence, he was awarded the 2023 “Outstanding Physician of Shandong Province” and “Weiwei Craftsman” honors 🏅, showcasing his leadership, dedication, and impact in healthcare innovation 🌟.

Clinical Expert 👨‍⚕️

Dr. Kun Wang is a seasoned clinical expert 👨‍⚕️ in advanced burn and wound care, specializing in treating complex cases such as deep burns, pediatric and geriatric burns, as well as chemical and electrical injuries 🔥🧒👵⚡. He excels in scar management through minimally invasive surgery, laser therapy, physical therapy, and medications 💉🔬. His expertise also extends to chronic wound healing, including diabetic foot, pressure ulcers, and non-healing surgical wounds 🦶🩹. Additionally, Dr. Wang is proficient in surgical treatments for superficial tumors and scar carcinoma, performing skin grafts and flap reconstructions with precision and care 🧫🔧.

Professional Affiliations 🏥

Dr. Kun Wang holds esteemed positions across numerous national and regional medical associations, showcasing his influential role in burn and wound care research and practice 🩺🌐. He is a committee member in key organizations such as the Chinese Medical Association, Chinese Association of Integrative Medicine, and the Chinese Association of Plastic and Aesthetics 🇨🇳🧬. Regionally, he serves as Vice Chairman and Chairman in multiple Shandong and Weifang medical societies, including those focused on tissue regeneration, plastic surgery, and disaster medicine 🧑‍⚕️🧪. His professional affiliations reflect his dedication to advancing collaborative, interdisciplinary healthcare and research nationwide 🤝🏥.

Research Focus 🔬

Dr. Kun Wang’s research focus centers on advanced wound healing technologies, particularly in diabetic patients 🧫🩹. His work highlights the development of multifunctional dressings, such as those incorporating curcumin, which demonstrate powerful anti-inflammatory, antioxidant, angiogenic, and collagen-regenerating properties 🌿🧪. These innovations aim to enhance tissue repair, accelerate healing, and reduce complications in chronic wounds like diabetic ulcers 🦶🔥. By merging traditional Chinese medicine with modern biomedical science, Dr. Wang contributes significantly to improving patient outcomes in burn and wound care 🔬❤️‍🩹. His research plays a vital role in next-generation therapies for complex and non-healing wounds.

Publication 📄

Paper Title: Multi-functional dressing with curcumin displays anti-inflammatory, antioxidant, angiogenic, and collagen regeneration effects in diabetic wound healing
Authors: Dr. Kun Wang, et al.
Journal: Journal of Wound Care