Dr jinlan An | Microstructure and Properties | Best Researcher Award

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Dr jinlan An | Microstructure and Properties | Best Researcher Award

🔧 Dr. Jinlan An is a Lecturer at the Key Laboratory of Fundamental Science for National Defense of Aeronautical Digital Manufacturing Process, Shenyang Aerospace University ✈️. Her research focuses on advanced materials engineering, particularly the laser deposition repair of GH4169 alloy and its microstructural evolution under electric pulsed current ⚡🧪. By studying phase transformations such as the dissolution of Laves phase and precipitation of γ″ phase, she aims to enhance mechanical strength and durability of aerospace components 🛠️. Dr. An’s work is highly relevant to aerospace repair, additive manufacturing, and metallurgical innovation, marking her as a rising talent in the field 🚀📈.

Dr jinlan An, Shenyang Aerospace University, China

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Experience 🧑‍🏫

Dr. Jinlan An currently serves as a Lecturer at the Key Laboratory of Fundamental Science for National Defense of Aeronautical Digital Manufacturing Process, Shenyang Aerospace University 🏛️. Her professional work focuses on laser deposition repair of high-performance alloys, particularly GH4169 🛠️. She specializes in examining the effects of electric pulsed current ⚡ on microstructural evolution, including the behavior of phases like the Laves phase and γ″ precipitation 🔍. Through this, she aims to enhance mechanical properties such as strength and durability 🔧. Her experience aligns strongly with applications in aerospace repair, additive manufacturing, and defense materials ✈️🧬.

Research Project 

Dr. Jinlan An is currently leading a research project on the evolution of phase transformations in GH4169 alloy during laser deposition repair under the influence of electric pulsed current ⚡🧪. Her work aims to understand how specific microstructural changes—such as Laves phase dissolution and γ″ phase precipitation—affect the mechanical properties of the repaired alloy 🛠️. This project has crucial implications for aerospace applications, where material reliability and strength are critical ✈️🔧. By optimizing energy input and phase behavior, her study contributes to advanced metallurgical techniques and more efficient additive manufacturing workflows 🔄🧱.

Research Focus 🔬

Dr. Jinlan An’s research centers on the microstructure and properties of GH4169 nickel-based superalloy subjected to laser deposition repair combined with electric pulsed current ⚡. She investigates how phase transformations—including Laves phase dissolution and γ″ precipitate formation—govern mechanical behavior such as tensile strength, hardness, and fatigue resistance 🛠️. By correlating processing parameters (energy density, pulse duration) with microstructural evolution (grain size, phase distribution), she aims to tailor material performance for critical aerospace components ✈️. Her work advances additive manufacturing and defense materials by optimizing repair strategies to achieve reliable, high-performance alloys 📈.

Contributions 🧪

Dr. Jinlan An has made impactful contributions to understanding the mechanical enhancement of GH4169 alloy through laser deposition repair under electric pulsed current ⚡. Her findings show that mechanical strength improves as energization time increases 🔧📈. She discovered the partial dissolution of the Laves phase into the matrix and the precipitation of the γ″ phase, which grows in size with longer current exposure 🔬. These insights reveal how phase evolution directly influences alloy performance, offering valuable guidance for repair strategies in aerospace materials engineering ✈️ and advanced metallurgy 🔩.

Publications 📚

Mechanism of Improving Microstructures of Laser Deposition Repaired GH4169 Alloy by Pulse Current
✍️ Authors: J. An, Jinlan; H. Li, Haopu; S. Zhou, Song; B. Gao, Bo; F. Chen, Fulong
📚 Journal: Zhongguo Jiguang / Chinese Journal of Lasers, 2025
🔬 Theme: Microstructure optimization, GH4169 alloy, pulse current, laser deposition repair
⚙️ Highlights: Investigates how pulse current enhances the microstructure during laser deposition repair of high-performance alloys

Effect of Heat Treatment on Microstructure and Mechanical Properties of TA15 Titanium Alloy Repaired by Laser Deposition
✍️ Authors: S. Zhou, Song; L. Wang, Lanbin; J. An, Jinlan; B. Wu, Bin; X. Zhang, Xiaochen
📚 Journal: Journal of Materials Engineering and Performance, 2025
🔥 Theme: Heat treatment, titanium alloy, microstructure-performance relationship, laser repair
🔧 Highlights: Explores how post-repair heat treatment influences structural integrity and mechanical properties of TA15 alloy

Mr Di Feng | Metals and Alloys | Best Researcher Award

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Mr Di Feng | Metals and Alloys | Best Researcher Award

🧪 Mr. Di Feng is a promising postgraduate researcher at Hainan University, specializing in soil science and environmental microbiology 🌱🔬. His research focuses on the interaction between heavy metals and soil microbial functions, addressing critical challenges in ecosystem health and sustainable land use 🌍. As first author in top-tier journals like Journal of Hazardous Materials, he has demonstrated strong analytical skills and scientific independence 📊📝. His large-scale meta-analyses and collaborations with international scientists highlight his multidisciplinary approach and rising global impact 🤝🌐. Mr. Feng’s work contributes directly to environmental remediation and agricultural resilience 🚜♻️.

Mr Di Feng, Hainan University, China

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🎓 Education 

Mr. Di Feng reflect a strong interdisciplinary foundation bridging the humanities and environmental sciences. He earned his Bachelor of Arts from Guilin University (2019–2023) 🏫, where he developed critical thinking and research skills within the Faculty of Humanities 📚. He is currently pursuing postgraduate studies in Crop Science at Hainan University 🌱, focusing on soil ecology, nutrient cycling, and the effects of heavy metals on microbial function 🔬. This academic path illustrates his unique ability to integrate social insight with scientific rigor, preparing him for impactful research in environmental sustainability 🌍🧪.

💼 Employment 

Since September 2023, Mr. Di Feng has been serving as a postgraduate researcher at the School of Tropical Agriculture and Forestry, Hainan University, Haikou, China 🌴🎓. His role involves conducting advanced research on soil-plant-microbe interactions, with a particular focus on the ecotoxicological effects of heavy metals in tropical ecosystems 🧪🌾. As part of a dynamic academic environment, he engages in experimental design, data analysis, academic writing, and collaborative studies with national and international research teams 🌍📊. His position supports both his Ph.D. studies and broader contributions to environmental and agricultural sustainability 🌱🔍.

🔧 Skills and Expertise 

Mr. Di Feng span both scientific research and education. He possesses deep knowledge in the bioaccumulation of heavy metals 🧪⚠️, particularly their interaction with soil enzymes like urease and phosphatase 🌱🧫. His methodological expertise includes enzyme activity assays, soil-microbe interaction analysis, and ecological data synthesis 📊🔍. In addition to his environmental science credentials, Mr. Feng is also trained in English teaching methodology 📘🎓, showcasing versatility and communication skills. This unique blend of technical and pedagogical expertise positions him as both a skilled researcher and an effective scientific communicator 🌍🗣️.

🌾Research Focus

Mr. Di Feng’s research explores the impact of heavy metals on soil microbial function and enzymatic activity, a critical area in understanding soil health and nutrient cycling 🔄🧬. His work investigates how edaphic (soil) and climatic factors influence the toxicity of pollutants, offering new perspectives on microbial ecology and biogeochemical processes 🌾🦠. Through meta-analysis and experimental approaches, he evaluates the ecological consequences of pollution on key enzymes like urease and phosphatase ⚗️🌡️. His findings are vital for advancing environmental remediation, agricultural sustainability, and ecosystem resilience against anthropogenic stressors 🌍♻️🌾.

🌱 Scientific Contributions 

Mr. Di Feng’s research reveals how heavy metals/metalloids (HMMs) disrupt soil enzyme activity, essential for nutrient cycling ⚙️🧪. Through a meta-analysis of 1,989 data points from 145 studies, he quantified significant reductions in key enzymes like β-glucosidase, urease, and phosphatase (15–37% declines) 📉. His work links these reductions to lower microbial biomass and increased metabolic stress, while noting a surprising 82.2% increase in polyphenol oxidase due to microbial stress responses 🔄. He further identified that soil properties and climate mediate these effects, offering a predictive framework for HMMs’ ecological risks 🌍📊.

📚 Publications

Cadmium inhibits carbon and nitrogen cycling through soil microbial biomass and reduces soil nitrogen availability
✍️ Authors: Elrys, A.S.; Wen, Y.; Feng, D.; El-Mekkawy, R.M.; Kong, M.; Qin, X.; Lu, Q.; Dan, X.; Zhu, Q.; Tang, S. et al.
📚 Journal: Journal of Hazardous Materials, 2025

Edaphic factors mediate the response of nitrogen cycling and related enzymatic activities and functional genes to heavy metals: A review
✍️ Authors: Opande, T.; Kong, M.; Feng, D.; Wen, Y.; Okoth, N.; Yatoo, A.M.; Khalil, F.M.A.; Elrys, A.S.; Meng, L.; Zhang, J.
📚 Journal: Ecotoxicology and Environmental Safety, 2025

Synergistic effects of clove fruit extract and nano-silicon to enhance drought resilience and productivity of soybean through improved plant defense mechanisms
✍️ Authors: Desoky, E.-S.M.; Mahmood, M.; Feng, D.; Ahmed, A.F.; Al Masoudi, L.M.; Alahmari, A.S.; Eid, R.S.M.; Rady, M.M.; Ayyoub, A.; Taha, N.A.
📚 Journal: BMC Plant Biology, 2025

Edaphic and climatic factors control the response of nutrient-cycling enzyme activity to common heavy metals in soils
✍️ Authors: Di Feng; Lei Meng; YuHong Wen; Yves Uwiragiye; Synan AbuQamar; Nathan Okoth; Qilin Zhu; Zhipeng Wu; Yanzheng Wu; Christoph Müller et al.
📚 Journal: Journal of Hazardous Materials, 2025

Co-application of organic amendments and natural biostimulants on plants enhances wheat production and defense system under salt-alkali stress
✍️ Authors: Zaghloul, E.A.M.; Awad, E.-S.A.; Mohamed, I.R.; El-Hameed, A.M.A.; Feng, D.; Desoky, E.-S.M.; Algopishi, U.B.; Al Masoudi, L.M.; Elrys, A.S.; Mathew, B.T. et al.
📚 Journal: Scientific Reports, 2024

Assoc. Prof. Dr Yanan Yin | Materials for Energy Applications | Best Researcher Award

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Assoc. Prof. Dr Yanan Yin | Materials for Energy Applications | Best Researcher Award

🌱 Assoc. Prof. Dr. Yanan Yin is a leading researcher in environmental biotechnology and bioenergy, currently based at Tsinghua University. She holds a Ph.D. in Environmental Science and Technology and completed international research training at the Technical University of Denmark 🌍. Her work focuses on biohydrogen production, wastewater treatment, and biosynthesis of valuable chemicals 🔬♻️. With over 70 publications, an H-index of 34, and multiple patents, she bridges fundamental science with real-world impact 🧪💡. Dr. Yin is also a dedicated mentor and active international collaborator, driving innovations that support sustainable energy and environmental health 🌿⚡.

Assoc. Prof. Dr Yanan Yin, Tsinghua University, China

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🎓 Education 

Dr. Yanan Yin earned her Ph.D. in Environmental Science & Technology from Tsinghua University (2012–2018), focusing on radiation-induced sludge disintegration and fermentative hydrogen production 🔬♻️. She completed her B.Sc. in Civil Engineering at Beijing University of Technology, graduating in the top 5% of her class with a thesis on estrogen removal in wastewater 💧📈. As a visiting Ph.D. scholar (2015–2016) at the Technical University of Denmark, she conducted advanced research on bioenergy production from syngas and microbial desalination cells 🌍⚗️. This diverse, high-level training shaped her expertise in sustainable environmental technologies.

🧪 Experience 

Assoc. Prof. Dr. Yanan Yin spans research, teaching, and innovation in environmental biotechnology. Currently an Associate Researcher at Tsinghua University (2023–present), she previously served as an Assistant Researcher and Postdoctoral Fellow 🧬. Her work includes biohydrogen production from sewage sludge, biomass conversion to value-added chemicals, and biosynthesis of C4–C6 alcohols from syngas ⚗️🌱. She also explored microbial desalination cells (MDCs) for energy and water treatment ♻️💧. As a Teaching Assistant, she supported radiation-related environmental courses 📘🎓. Dr. Yin’s career reflects a deep commitment to sustainability, innovation, and mentoring future scientists.

🏆 Awards 

Assoc. Prof. Dr. Yanan Yin reflect her academic excellence and research leadership. She has published over 70 peer-reviewed articles in top journals like Applied Energy and Bioresource Technology 📚, with an H-index of 34 and 3000+ citations 📈. She co-authored a monograph with Springer and book chapters with Elsevier, and holds 4 granted patents 🔬. Her honors include the Top Scholarship of Tsinghua University, multiple National Scholarships, and the Tang XY Innovation Award 🌟. Repeatedly recognized as an Outstanding Graduate and Excellent Student, her achievements highlight sustained academic brilliance and innovation 🌱🎓.

🔏 Technological Innovation

Assoc. Prof. Dr. Yanan Yin demonstrate her pioneering role in biohydrogen production and waste treatment technologies. She holds 10 invention patents, including granted technologies for biohydrogen generation from wastewater, sludge, and biomass ♻️💧. These cover novel microbial strains (e.g., Clostridium butyricum, Enterococcus faecium) 🦠, waste solubilization via gamma radiation ☢️, and continuous hydrogen production using immobilized microbes ⚙️. Her patents bridge laboratory innovation with industrial-scale sustainability solutions, enhancing energy recovery and waste valorization 🔋🌿. These contributions underscore her impact on clean energy research and practical environmental technologies.

🔬 Research Focus 

Assoc. Prof. Dr. Yanan Yin centers on advancing sustainable technologies for energy and environmental solutions. Her work involves the fermentation and biosynthesis of biofuels and high-value biochemicals such as hydrogen and medium-chain fatty acids ⚗️⚡. She investigates biomass deconstruction and enzymatic saccharification to enhance resource recovery from agricultural and organic waste 🌾🧪. Additionally, she develops eco-friendly methods for the degradation and removal of pollutants in wastewater systems, contributing to cleaner water and healthier ecosystems 💧♻️. Her interdisciplinary approach integrates microbiology, chemical engineering, and environmental science for impactful, real-world sustainability innovations 🌍🔋.

📘 Publications

Enhancement of Medium-Chain Fatty Acids Production from Sewage Sludge Fermentation by Zero-Valent Iron
Authors: Lou, Tianru; Yin, Yanan; Wang, Jianlong
Journal: Chemosphere, 2025

Positive Feedback Mechanism of Stability Degradation of the IrO₂/TiO₂ Electrocatalyst Induced by Inferior Catalytic Activity
Authors: Zhang, Zeping; Yao, Muhan; Huang, Renxing; Yin, Yanan; Wang, Cheng
Journal: Energy and Fuels, 2025

Enhanced Medium-Chain Fatty Acids Production by Electro-Fermentation: Insights into the Effect of Biocathode and Ethanol Supply
Authors: Sun, Xiaoyan; Yin, Yanan; Chen, Hui; Wang, Cheng; Wang, Jianlong
Journal: ACS ES&T Engineering, 2025

Effect of Copper on Fermentative Hydrogen Production from Sewage Sludge: Insights into Working Mechanisms
Authors: Gao, Weitao; Song, Weize; Chen, Yang; Wang, Cheng; Yin, Yanan
Journal: Renewable Energy, 2024

Enhanced Medium-Chain Fatty Acid Production from Sewage Sludge by Combined Electro-Fermentation and Anaerobic Fermentation
Authors: Sun, Xiaoyan; Chen, Hui; Cui, Ting; Yang, Tao; Yin, Yanan
Journal: Bioresource Technology, 2024

Mechanisms of Biochar Promoting Medium Chain Fatty Acids Production from Sewage Sludge: Effect of Biochar Type
Authors: Lou, Tianru; Yin, Yanan; Wang, Jianlong
Journal: Journal of Cleaner Production, 2024

Electrospun Catalyst Layers Using Short-Side-Chain Ionomer for Low Platinum and High Performance PEMFCs
Authors: Gao, Weitao; Lu, Jiapeng; Chen, Jiayi; Yin, Yanan; Wang, Cheng
Journal: Electrochemistry Communications, 2024

Prof. Dr Zheng Li | Optical Materials | Best Researcher Award

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Prof. Dr Zheng Li | Optical Materials | Best Researcher Award

🔬 Prof. Dr. Zheng Li is a trailblazing researcher in chemistry and materials science, currently serving as a Full Professor at Jinan University. He earned his Ph.D. 🎓 from the University of Illinois at Urbana-Champaign and held postdoctoral positions at top U.S. institutions 🇺🇸. His research focuses on wearable sensors, non-invasive diagnostics, and nano-enabled technologies for healthcare 🏥, agriculture 🌱, and environmental monitoring 🌍. With 30+ publications in journals like Nature Plants and ACS Nano, Dr. Li is known for turning innovative ideas into real-world solutions 💡. He is also a dedicated mentor and academic leader 👨‍🏫.

Prof. Dr Zheng Li, Jinan University, China

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🎓 Education

Prof. Dr. Zheng Li earned his Ph.D. in Chemistry from the University of Illinois at Urbana-Champaign (2012–2017) with an impressive GPA of 3.83/4.00. He also completed his B.Sc. in Chemistry at Nanjing University, maintaining a strong academic record. His education at globally recognized institutions provided a solid foundation in chemical sciences and materials research.

🧪 Research Experience

Prof. Li has held multiple postdoctoral fellowships at prominent U.S. institutions including the University of Illinois, North Carolina State University, and UNC Chapel Hill, working under renowned mentors such as Prof. Kenneth S. Suslick and Prof. Qingshan Wei. He later became an Associate Professor at Shenzhen University (2019–2025) and is currently a Full Professor at Jinan University (since 2025).

📘 Book Chapters 

Prof. Dr. Zheng Li showcase his authority in advanced sensor technologies and biomedical diagnostics. In the “Encyclopedia of Sensors and Biosensors” (2023), he authored a key chapter on chemical and optical gas sensors 🔍. His 2020 chapter in “Optoelectronic Organic-Inorganic Semiconductor Heterojunctions” explores cutting-edge optoelectronic sensors for health monitoring ❤️‍🩹. Earlier, he co-authored a chapter on smartphone-based flow cytometry 📱🧬 in the 2019 volume “Smartphone Based Medical Diagnostics,” highlighting mobile healthcare innovations. These chapters reflect his pioneering role in integrating chemistry, electronics, and health technologies for next-generation diagnostic platforms.

🧬 Research Focus

Dr. Li’s work centers on wearable sensing devices, chemiresistive sensors, volatile metabolite profiling, nanomaterials, and non-invasive diagnostics. His innovations span health diagnostics, food safety, and plant stress monitoring. He integrates cutting-edge nanotechnology with real-world applications in biomedical and environmental fields.

🛠️ Skills and Innovations

Dr. Li’s technical expertise spans chemiresistive sensors, nanoparticle synthesis, microfluidics, bioaerosol sensing, and optical & electronic sensing platforms. He has demonstrated the ability to translate fundamental research into practical diagnostic tools (e.g., smartphone-based biosensors, LEGO-inspired diagnostics).

🏆 Honors and Awards 

Prof. Dr. Zheng Li reflect his exceptional contributions to science and mentorship. Recognized among the Stanford University World’s Top 2% Scientists (2021–2024) 🌍, he has also been honored as Best Supervisor and Mentor of the Best Dissertation Award at Shenzhen University 🎓. His early excellence was acknowledged through the P&G Research Award 🧪, the Eastman Travel Award for the ACS National Meeting ✈️, and prestigious fellowships like the Ullyot and Hannum Fellowships 📚 at the University of Illinois. At Nanjing University, he was named an Honor Student of the elite Kuang Yaming Honors School 🌟.

📚Publications

Harnessing NIR-II luminescence in ultrasmall gold nanoparticles for enhanced biomedical applications
Authors: Zhou, Tingyao; Li, Zheng
Focuses on harnessing near-infrared luminescence in gold nanoparticles for biomedical innovation.

Hydrogel-Based Microdroplet Ensembles Encapsulating Multiplexed EXPAR Assays for Trichromic Digital Profiling of MicroRNAs and in-Depth Classification of Primary Urethral Cancers
Authors: Yao, Chanyu; Wang, Qiang; Lu, Xiaohui; Chen, Xiaofeng; Li, Zheng
Journal: Nano Letters, 2024
Develops a hydrogel microdroplet system for precision cancer diagnostics via microRNA profiling.

Expanding the Toolbox of Oxidants: Controllable Etching of Ultrasmall Au Nanoparticles toward Tailorable NIR-II Luminescence and Ligand-Mediated Biodistribution and Clearance
Authors: Zhou, Tingyao; Hu, Chao; He, Kui; Li, Zheng
Journal: Analytical Chemistry, 2024
Explores etching of gold nanoparticles for tunable optical properties and biological performance.

A handheld fluorescent platform integrated with a Sm(III)-CdTe quantum dot-based ratiometric nanoprobe for point-of-use determination of phosphate
Authors: Yin, Shengnan; Li, Zheng
Journal: Nanoscale, 2024
Presents a portable device using quantum dots for environmental phosphate detection.

Mr A S M Riyad | Recycling and Circular Economy in Materials | Best Researcher Award

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Mr A S M Riyad | Recycling and Circular Economy in Materials | Best Researcher Award

Mr. A S M Riyad is a passionate and accomplished researcher in Geotechnical and Geo-Environmental Engineering 🌍🧱. Currently pursuing a Ph.D. at the University of Technology Sydney (UTS), Australia, he has consistently demonstrated excellence in academic research and collaboration 🌐📚. His dedication to sustainable construction practices, especially through the reuse of waste materials, marks his commitment to eco-conscious engineering 🔄🏗️. With a strong academic foundation, numerous publications, and teaching experience, Mr. Riyad is recognized for his critical thinking, innovation, and integrity in the civil engineering community 🧠🌟.

Mr A S M Riyad, University of Technology Sydney, Australia

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🎓 Education

Mr. Riyad’s educational journey showcases a strong and continuous focus on civil engineering 📘🛠️. He began with a B.Sc. in Civil Engineering (2010–2014) and continued with a M.Sc. in Civil Engineering (2015–2018), both from Khulna University of Engineering & Technology (KUET), Bangladesh 🎓🇧🇩. He is currently pursuing his Ph.D. in Geotechnical Engineering at the University of Technology Sydney (UTS), Australia 🇦🇺🎓. His academic pathway reflects a consistent pursuit of advanced knowledge, complemented by his research in waste material reuse and foundation engineering 🔍🏗️.

👨‍🏫 Experience

Mr. Riyad has been serving as a faculty member in the Department of Civil Engineering at KUET since 2015 👨‍🏫🇧🇩. His experience includes teaching undergraduate courses, curriculum planning, academic advising, and active participation in examination committees 📑📊. Alongside teaching, he works as a consultant engineer at Consultancy, Research & Testing Services (CTRS), KUET, where he contributes to material testing, soil exploration, infrastructure design, and civil works implementation 🏗️📐. His multifaceted role reflects a rare blend of research, teaching, and real-world engineering solutions 🔬🛠️.

🔬 Research Focus

Mr. Riyad’s research centers on Geotechnical Engineering, particularly the reuse of waste materials for sustainable infrastructure development ♻️🏗️. His work involves laboratory testing, material modeling, and soil behavior analysis under various stabilization techniques 🧪📊. Through his Ph.D. and ongoing studies, he focuses on developing eco-friendly, cost-effective, and structurally reliable alternatives to conventional construction practices 🌱🧱. His interdisciplinary approach integrates civil, environmental, and material sciences, contributing to modern challenges in urban development and waste management 🌐💡.

📚 Publications

Compressive Behavior of Reconstituted Soils at High Initial Water Content: Case Study on South-Western Region of Bangladesh
✍️ Authors: ASM Riyad, IM Rafizul, R Kadir
📚 Journal: Journal of Engineering Science, Vol. 14(1), pp. 1–9
📅 Year: 2023
🌍 Theme: Soil mechanics, geotechnical engineering

Sustainable Management Scheme for Household & Academic Institutional Solid Waste Generation: A Case Study in Khulna Metropolitan City
✍️ Author: ASM Riyad
📚 Journal: International Journal of Renewable Energy and Environmental Engineering, Vol. 3
📅 Year: 2015
🏙️ Theme: Urban sustainability, waste management

Numerical Modelling of Anchor Foundation in Dense Sand
✍️ Authors: ASM Riyad, M Rokonuzzaman
📚 Journal/Conference: 4th International Conference on Civil Engineering for Sustainable Development, KUET
📅 Year: 2018
🧮 Theme: Numerical modeling, foundation engineering

Characterization of Leachate Generated from Landfill Lysimeter: Effects of Clay Liner and Solid Waste Composition
✍️ Authors: F Alam, ASM Riyad, M Alamgir
📚 Conference: 15th International Waste Management and Landfill Symposium – Sardinia
📅 Year: 2015
🗑️ Theme: Environmental engineering, landfill management

An Extended Perspective on the Disturbed State Concept for Rubber–Mixed Waste Material Considering Modulus Degradation under Cyclic Loading
✍️ Authors: ASM Riyad, B Indraratna, CK Arachchige, Y Qi, H Khabbaz
📚 Journal: International Journal of Geomechanics, Vol. 25(5), Article 06025002
📅 Year: 2025
🔁 Theme: Soil behavior, recycled materials, cyclic loading

Constitutive Behaviour of Recycled Rubber-Involved Mixtures for Transportation Infrastructure
✍️ Authors: Y Qi, K Wijesooriya, B Indraratna, ASM Riyad
📚 Journal: Sustainability, Vol. 17(9), Article 3956
📅 Year: 2025
🚧 Theme: Sustainable infrastructure, material innovation

Prof. Dr Andrea Bernardos | Nanomaterials | Women Researcher Award

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Prof. Dr Andrea Bernardos | Nanomaterials | Women Researcher Award

Andrea Bernardos, PhD 🎓, is a chemist specializing in gated mesoporous silica for controlled delivery and nanomedicine. She earned her PhD at UPV under Prof. Ramón Martínez-Mañez, with research stays in Denmark 🇩🇰 and the Czech Republic 🇨🇿. With 33 publications 📚, 1700+ citations 🔬, 4 patents, and experience in 12 research projects, she has also won awards in nanotechnology 🏆. Currently, she is a Project Manager at Senolytic Therapeutics S.L. 💼, coordinating international R\&D projects (H2020, EIT Health, Neotec 🌍). Andrea combines scientific excellence with strong leadership in biotech innovation 💡🧪.

Prof. Dr Andrea Bernardos, Universitat Politècnica de València, Spain

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Education 🎓

Andrea Bernardos holds a PhD 🎓 in Chemistry from the Universitat Politècnica de València (2007–2011), where she conducted research at the Interuniversity Research Institute for Molecular Recognition and Technological Development (IDM) 🧪. Her doctoral work focused on gated materials for controlled delivery applications. Prior to her PhD, she earned her Bachelor’s degree in Chemistry 🧫 from the Universidad Autónoma de Madrid (1999–2006), graduating from the Faculty of Sciences 📘. Her strong academic foundation in molecular science and nanotechnology laid the groundwork for her innovative research in drug delivery and nanomedicine 💡🔬.

Experience 💼

Andrea Bernardos is currently a Profesora Titular de Universidad 👩‍🏫 at the Universitat Politècnica de València (UPV) since December 2024, working full-time in the Department of Chemistry at IDM 🧪. Her expertise spans biochemistry, inorganic and pharmaceutical chemistry, cell biology, agricultural engineering, and materials technology 🔬🌾⚙️. Prior to this, she was an Investigadora Distinguida at UPV (2021–2024) and a researcher at CIBER-BBN (2020), focusing on biomaterials and nanomedicine 🧫🧠. She also served as a senior researcher at Senolytic Therapeutics S.L. (2018–2020), bridging academic science and biotech innovation 💼💊. Her career combines excellence in research, teaching, and multidisciplinary collaboration 🌍📚.

Achievements 🏆

Prof. Dr. Andrea Bernardos 🎓 has been awarded prestigious post-doctoral research grants that highlight her exceptional talent and contribution to scientific advancement. She received the Torres Quevedo Grant 🧪 from the Spanish Ministry of Economy, Industry, and Competitiveness, supporting her innovative work at Senolytic Therapeutics S.L. for three years (2018–2021). Additionally, she was honored with the Beatriz Galindo Grant 🌍—a highly competitive initiative for attracting top-tier research talent—by the Ministry of Science and Innovation. This grant supported her continued research excellence at the Universidad Politécnica de Valencia within the Department of Chemistry 🔬, underscoring her leadership in academia and applied science.

Conferences 📜

Prof. Dr. Andrea Bernardos 🧬 has actively contributed to international scientific forums with groundbreaking research. At the 5th International Caparica Symposium on Nanoparticles/Nanomaterials and Applications 2022 in Portugal 🇵🇹, she delivered an oral presentation on “Lactose-Gated Mesoporous Silica Particles for Controlled Intestinal Release of Essential Oil Components”, demonstrating her expertise in smart drug delivery systems 🌿💊. Additionally, at the X Longevity World Forum in Valencia, Spain 🇪🇸, she shared insights as the corresponding author on “The Challenge to Develop Medicines by Targeting Senescent Cells”, contributing to the frontier of anti-aging and cellular therapy research 🧫🧓.

Research Focus 🔬

Prof. Dr. Andrea Bernardos 🧪 focuses her research on innovative nanotechnology-based approaches for biomedical and environmental applications. Her work spans diverse themes such as biosensors for airborne virus detection 🦠🔬 (Talanta), fluorescent probes for cancer biomarkers 🎯🧫 (Dyes and Pigments), COVID-19-related metabolomics 🧬💉 (Journal of Medical Virology), and antimicrobial nanomaterials 🌿🧼 (IJMS). She also explores chemical strategies for senescent cell removal ⚗️🧓 and smart organonanoclays for triggered biomolecule release 📦💡. Through her interdisciplinary work, Dr. Bernardos contributes significantly to health, safety, and materials science, demonstrating a strong commitment to innovation and real-world impact.

Publications 📄

LC biosensors (Bio-LC): New Resonant Sensors for Direct Detection of Airborne Viruses
🧪 Journal: Talanta (2025-11)
👩‍🔬 Authors: Patricia Noguera, Nuria Pastor-Navarro, Andrea Bernardos, Serena Medaglia, Miguel Alcañiz-Fillol, Rafael Masot-Peris, David Giménez-Romero
🔬 Focus: Airborne virus detection via resonant biosensors

Development of a Novel Near-Infrared Fluorescent Probe Based on Nile Blue for the Detection of Leucine Aminopeptidase as a Cancer Biomarker
🧪 Journal: Dyes and Pigments (2025-09)
👩‍🔬 Authors: Marcia Domínguez, David Azorín-Soriano, Jessie García-Fleitas, Jennifer Soler-Beatty, Andrea Bernardos, et al.
🔬 Focus: Cancer biomarker detection

Metabolomic Biomarkers of Pulmonary Fibrosis in COVID‐19 Patients One Year After Hospital Discharge
🧪 Journal: Journal of Medical Virology (2025-03)
👩‍🔬 Authors: Marina Botello‐Marabotto, Julia Tarrasó, Alba Mulet, Lucía Presa‐Fernández, Estrella Fernández‐Fabrellas, Andrea Bernardos, et al.
🔬 Focus: Long-term COVID-19 metabolomics

Antimicrobial Surfaces: Stainless Steel Functionalized with the Essential Oil Component Vanillin
🧪 Journal: International Journal of Molecular Sciences (2024-11-12)
👩‍🔬 Authors: Serena Medaglia, Ángela Morellá-Aucejo, María Ruiz-Rico, Félix Sancenón, Luis A. Villaescusa, Ramón Martínez-Máñez, M. Dolores Marcos, Andrea Bernardos
🔬 Focus: Antimicrobial surface technology

Chemical Strategies for the Detection and Elimination of Senescent Cells
🧪 Journal: Accounts of Chemical Research (2024-05-07)
👩‍🔬 Authors: Jessie García-Fleitas, Alba García-Fernández, Vicente Martí-Centelles, Félix Sancenón, Andrea Bernardos, Ramón Martínez-Máñez
🔬 Focus: Targeting senescent cells in aging and disease

Evaluación de Sesiones Prácticas de Laboratorio de Materiales y Nanomateriales en Química, para Alumnos de Primer Curso de Ingeniería Física
🧪 Conference: INRED 2023 (2023-07-13)
👩‍🔬 Authors: Andrea Bernardos Bau, Vicente Martí Centelles, María Dolores Marcos Martínez, Susana Querol Magdalena, Joana Oliver Talens
🔬 Focus: Nanomaterial lab education methods

Gated Organonanoclays for Large Biomolecules: Controlled Release Triggered by Surfactant Stimulus
🧪 Journal/Details not provided
👩‍🔬 Author: Andrea Bernardos
🔬 Focus: Smart delivery systems for biomolecules

Mrs Rosemary Qummouh | Materials Science | Best Researcher Award

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Mrs Rosemary Qummouh | Materials Science | Best Researcher Award

Mrs. Rosemary Qummouh 🎓 is a lecturer at Western Sydney University 🇦🇺 and a practicing mental health social worker 🧠. With over a decade of experience in academia and practice, she focuses on trauma, mental health, and refugee well-being 🌍. Currently pursuing her PhD, she has completed 5 research projects and is engaged in 4 ongoing studies 📊. Her work includes 6 journal publications 📚, 6 patents 🧪, and multiple cross-institutional collaborations 🤝. Passionate about social justice and culturally responsive care, she bridges research and real-world impact to uplift marginalized communities 💬🌱.

Mrs Rosemary Qummouh, Western Sydney University, Australia

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Education 🎓

Mrs. Rosemary Qummouh holds a strong academic foundation in social sciences and mental health. She earned her Bachelor of Arts in Sociology from the University of New England (1991–1994) 🏛️, followed by a Bachelor of Social Work from Western Sydney University – Bankstown Campus 📚. To deepen her expertise in mental health care, she further pursued a Master’s in Counselling at the same university 🧠💬. Her diverse educational background equips her with a multidisciplinary approach, essential for addressing complex societal issues, especially in areas like trauma, refugee support, and cross-cultural mental health care. 🌍💡👩‍🎓

Experience 💼

Since February 2011, Mrs. Rosemary Qummouh has been serving as an Academic at the School of Social Sciences, Western Sydney University – Parramatta Campus 📍. With over a decade of experience in higher education, she has contributed significantly to teaching, mentoring, and curriculum development in social sciences and counselling 🧠📖. Her academic role is rooted in practical social work, and she actively integrates real-world issues into her teaching, particularly focusing on trauma, refugee mental health, and culturally responsive practices 🌐💬. Her long-term commitment demonstrates a passion for education, equity, and community empowerment. 🎓🤝💼

Research Contributions 📘

Mrs. Rosemary Qummouh has made impactful contributions to the fields of social work, mental health, and refugee support. Her research explores critical issues such as the effects of COVID-19 on social work practices 🦠📚 and the development of culturally tailored support for Syrian and other refugees in Australia 🏠🕊️. She has led studies on self-care among social work students and the link between trauma and chronic illness in refugee women 💔🧬. Her work fosters collaborative care models, strengthens professional identity, and enhances the well-being and community integration of vulnerable populations 🤝🌱💡.

Research Focus🌱

Mrs. Rosemary Qummouh’s research centers on enhancing social work practices in the fields of mental health and refugee support 🤝🧠. She investigates the impact of COVID-19 on social work methodologies 🦠📖, develops tailored support systems for refugees in Australia 🏠🕊️, and leads innovative projects on self-care for social work students 🌿🎓. Her work also delves into the relationship between trauma and chronic illness in refugee women 💔🩺. Through these efforts, she aims to improve service delivery, strengthen professional identity, and foster collaborative practices that uplift vulnerable communities and support their well-being and integration 🌈🏘️.

Publications 📚

Psychosocial Interprofessional Perinatal Education: Design and Evaluation of an Interprofessional Learning Experience to Improve Students’ Collaboration Skills in Perinatal Care
Authors: H. Keedle, V. Stulz, J. Conti, R. Bentley, T. Meade, R. Qummouh, P. Hay, et al.
Journal: Women and Birth, Vol. 36(4), e379–e387, 2023

Discourses and Practices in Social Work and Trauma-Focused Work with Syrian and Other Refugees
Authors: R. Qummouh, S. Linnell
Book: Handbook of Critical Whiteness: Deconstructing Dominant Discourses Across Professions, 2024

COVID-19 in the UAE: Social Work, Human Rights, and Mental Health
Authors: A. Albrithen, L. Briskman, R. Qummouh
Journal: Journal of Human Rights and Social Work, Vol. 9(2), 304–316, 2024

Social Work Students’ Reflections on Self-Care While Completing Field Education During the COVID-19 Pandemic
Authors: S. Harris, R. Qummouh, M.V. Dalziel
Journal: Australian Social Work, Vol. 78(1), 71–82, 2025

My Pillow Is Filled with Tears… Syrian Refugees’ Journey to Australia: Narratives of Human Courage and Resilience
Authors: R. Qummouh, S. Linnell, S. Slewa-Younan, S. Harris
Journal: International Journal of Environmental Research and Public Health, Vol. 22(5), 691, 2025

A Practical Guide to Therapeutic Work with Asylum Seekers and Refugees
Review by: R. Qummouh
Publisher: Jessica Kingsley Publishers

Assoc. Prof. Dr Da Chen | Nuclear Materials | Best Researcher Award

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Assoc. Prof. Dr Da Chen | Nuclear Materials | Best Researcher Award

Assoc. Prof. Dr. Da Chen 🎓 is a leading researcher at Southeast University, China 🇨🇳, specializing in nuclear technology ☢️, radiation effects 🌟, and advanced materials science 🧪. With a Ph.D. from City University of Hong Kong 🏙️, he has published 50+ SCI papers 📚 and earned 4,500+ citations 🔬. His groundbreaking work on high-entropy alloys ⚙️, helium behavior, and AI-designed nanoprecipitates 🤖 contributes to next-gen nuclear safety and materials innovation. Known for interdisciplinary and global collaborations 🌍, Dr. Chen is a rising star in sustainable nuclear research and engineering innovation 🚀.

Assoc. Prof. Dr Da Chen, Southeast University, China

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Education 🎓

Dr. Da Chen 🎓 earned his Ph.D. in Mechanical Engineering from City University of Hong Kong 🏙️ (2015–2020), where he focused on ion irradiation damage in FeCoNiCr-based high-entropy alloys at elevated temperatures ☢️🔥 under the guidance of Prof. Ji-Jung Kai. Prior to that, he completed his Bachelor of Engineering in Nuclear Engineering at Harbin Engineering University 🧪🇨🇳 (2008–2012), laying a strong foundation in nuclear science and materials technology. His academic journey reflects deep expertise in advanced materials research, nuclear applications, and radiation effects 🚀📘—key areas in today’s pursuit of safe and sustainable energy solutions.

Research Grant Experience 

Assoc. Prof. Dr. Da Chen 🎓🔬 has led and contributed to multiple cutting-edge research grants in nuclear materials and high-entropy alloys. As Principal Investigator (PI) on projects funded by the National Natural Science Foundation of China 🇨🇳 and Jiangsu Province 🌏, he investigates radiation resistance and void swelling behavior in FCC-based alloys through stacking fault energy regulation ⚛️🧪. He also played key roles in Hong Kong GRF-funded projects 🇭🇰 (2015–2023), assisting with drafting proposals, maintaining research progress, and reporting on the microstructural evolution of irradiated materials. His grant work supports the future of nuclear reactor technology 🚀☢️.

Awards 🏆

Assoc. Prof. Dr. Da Chen 🧑‍🎓🏆 has earned several prestigious academic honors that reflect his excellence in research and scholarship. At the City University of Hong Kong 🇭🇰, he was awarded the Chow Yei Ching School of Graduate Studies Scholarship (2019) 🏅, the Outstanding Academic Performance Award (2019) 🎖️, and the Research Tuition Scholarship (2018) 🎓. From 2015 to 2019, he was continuously supported by a Postgraduate Scholarship 📚, recognizing his sustained academic excellence. These accolades underscore his dedication, scholarly impact, and strong academic trajectory in the fields of nuclear engineering and materials science ⚛️🔬.

Research Focus 🔬 

Assoc. Prof. Dr. Da Chen 🔬⚛️ specializes in the cutting-edge intersection of nuclear technology, radiation effects, and materials science. His research focuses on understanding how materials behave under extreme environments—especially within nuclear reactors 🔥🧪. He investigates radiation-induced damage, ion irradiation, and the development of high-entropy alloys (HEAs) to enhance structural resilience in nuclear settings 🏗️💥. His work includes exploring helium bubble dynamics, microstructural stability, and defect engineering 🧬🔍. Through innovation and advanced simulations, Dr. Chen aims to design next-generation materials that can endure the demands of future nuclear energy systems 🚀🌱.

Publications 📘

Multicomponent Intermetallic Nanoparticles and Superb Mechanical Behaviors of Complex Alloys
👨‍🔬 Authors: T. Yang, Y.L. Zhao, Y. Tong, Z.B. Jiao, J. Wei, J.X. Cai, X.D. Han, D. Chen, A. Hu, …
📰 Journal: Science

Heterogeneous Precipitation Behavior and Stacking-Fault-Mediated Deformation in a CoCrNi-Based Medium-Entropy Alloy
👨‍🔬 Authors: Y.L. Zhao, T. Yang, Y. Tong, J. Wang, J.H. Luan, Z.B. Jiao, D. Chen, Y. Yang, …
📰 Journal: Acta Materialia

Outstanding Tensile Properties of a Precipitation-Strengthened FeCoNiCrTi₀.₂ High-Entropy Alloy at Room and Cryogenic Temperatures
👨‍🔬 Authors: Y. Tong, D. Chen, B. Han, J. Wang, R. Feng, T. Yang, C. Zhao, Y.L. Zhao, …
📰 Journal: Acta Materialia

Design of D0₂₂ Superlattice with Superior Strengthening Effect in High Entropy Alloys
👨‍🔬 Authors: F. He, D. Chen, B. Han, Q. Wu, Z. Wang, S. Wei, D. Wei, J. Wang, C.T. Liu, J. Kai
📰 Journal: Acta Materialia

Development of High-Strength Co-Free High-Entropy Alloys Hardened by Nanosized Precipitates
👨‍🔬 Authors: Y.L. Zhao, T. Yang, J.H. Zhu, D. Chen, Y. Yang, A. Hu, C.T. Liu, J.J. Kai
📰 Journal: Written Materials

Superior High-Temperature Properties and Deformation-Induced Planar Faults in a Novel L1₂-Strengthened High-Entropy Alloy
👨‍🔬 Authors: Y.L. Zhao, T. Yang, Y.R. Li, L. Fan, B. Han, Z.B. Jiao, D. Chen, C.T. Liu, J.J. Kai
📰 Journal: Acta Materialia

Mr Yongshan Du | Recycling and Circular Economy in Materials | Best Researcher Award

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Mr Yongshan Du | Recycling and Circular Economy in Materials | Best Researcher Award

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

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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
⚡🧊🛳️