Prof Catherine Quantin | Materials Science | Women Researcher Award

Prof Catherine Quantin | Materials Science | Women Researcher Award

Professor Catherine Quantin πŸŽ“πŸ“Š is a renowned expert in Biostatistics, Medical Informatics, and Epidemiology, with over 20 years of leadership at Dijon University Hospital πŸ₯. As Head of the Biostatistics Department and a key figure in projects like Horizon-Europe SERENA πŸ‘ΆπŸ“ˆ, she tackles critical health issues including child abuse and perinatal care. A prolific author πŸ“š, she has advanced the field through innovative research and mentorship πŸ‘©β€πŸ«, supervising numerous theses. Her leadership in CIMES, ISCB, and IMIA 🌍 highlights her international impact. Honored with a National Academic Order πŸ…, she is a true champion for women in science πŸ‘©β€πŸ”¬πŸ’ͺ.

Prof Catherine Quantin, Centre Hospitalier Universitaire de Dijon, France

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Education πŸŽ“

Professor Catherine Quantin πŸŽ“πŸ“Š is a Senior Fellow and Professor of Biostatistics and Medical Informatics at Dijon University Hospital πŸ₯, where she has led the Biostatistics and Medical Information Department since 1998. She is affiliated with the Centre for Epidemiology and Population Health (Inserm, University of Paris-Saclay) πŸ”¬πŸŒ. She heads the Master’s program in Public Health and serves as Director of Studies in Biostatistics, Medical Informatics, and Epidemiology πŸ“˜πŸ‘©β€πŸ«. As Coordinator of the Horizon-Europe SERENA Project on child abuse πŸ‘ΆπŸ“ˆ, she drives impactful research. Awarded the National Order of Academic Merit in 2013 πŸ…, she has mentored numerous postdocs and students πŸŽ“πŸ’Ό.

Experience πŸ₯

Professor Catherine Quantin πŸŽ“πŸ“Š has led the Biostatistics and Medical Information Department at Dijon University Hospital πŸ₯ since 1998. A senior fellow and Professor of Biostatistics and Medical Informatics πŸ‘©β€πŸ«, she is also a key member of the Centre for Epidemiology and Population Health (Inserm, University of Paris-Saclay) 🌍. As Coordinator of the Horizon-Europe SERENA project πŸ‘ΆπŸ“ˆ, she leads groundbreaking work on child abuse. She directs the Public Health Master’s program and oversees studies in Biostatistics, Informatics, and Epidemiology πŸ“˜. With 3 Postdocs, 22 PhDs, and 36 Master’s theses mentored πŸ‘©β€πŸ”¬, and a National Order Academic Award πŸ…, her impact is profound and far-reaching.

Book Contributions πŸ“š

Professor Catherine Quantin πŸ“šπŸ’‘ has made significant contributions to academic literature through her co-authorship of foundational texts in medical informatics and biostatistics. Her books include Medical Informatics, e-Health: Fundamentals and Applications (2014) and its French edition Informatique mΓ©dicale, e-SantΓ© (2013) written alongside Alain Venot and Anita Burgun πŸ§ πŸ’». She also co-authored Biostatistique (2009) with renowned scholars Regis Beuscart, Jacques BΓ©nichou, and Pascal Roy πŸ“ˆπŸ”¬. These works, published with respected academic publishers, serve as essential references for students, educators, and healthcare professionals worldwide, highlighting her role as a thought leader in digital health and statistical sciences πŸŒπŸ“˜.

Collaborations πŸ“Š

Professor Catherine Quantin 🌍🀝 has built a strong network of international collaborations, enriching global research in biostatistics and public health. Her major partnerships include work with Pr Abrahamowicz at McGill University, Canada πŸ‡¨πŸ‡¦ (Epidemiology & Biostatistics); Pr Rodwin at NYU, USA πŸ‡ΊπŸ‡Έ (Health Policy); Pr Paccaud at the University of Lausanne, Switzerland πŸ‡¨πŸ‡­ (Public Health); Pr Thilaganathan at St George’s University of London, UK πŸ‡¬πŸ‡§ (Obstetrics & Gynecology); and Pr Echouffo-Tcheugui at Johns Hopkins University, USA πŸ‡ΊπŸ‡Έ (Endocrinology & Diabetes). These collaborations reflect her multidisciplinary impact and dedication to advancing health research through global expertise πŸŒπŸ“Š.

Research Focus πŸ”¬

Professor Catherine Quantin πŸ§ πŸ“Š is a trailblazer in biostatistics, medical informatics, and epidemiology. Her research spans the development of advanced statistical methods πŸ“ˆ, data linkage and anonymization techniques πŸ”, perinatal epidemiology πŸ‘Ά, and the innovative use of medico-administrative databases πŸ₯ for public health research. A global leader in child abuse research 🚸, she developed algorithms for detecting physical abuse using ICD-10 codes and coordinates the Horizon-Europe SERENA project πŸ‡ͺπŸ‡Ί. Her work informs national and international policy πŸ“œ and promotes better healthcare access and outcomes for vulnerable populations 🌍. Her impactful studies blend methodology and real-world application seamlessly πŸ’‘.

Publications πŸ“˜

Hospitalisations for physical abuse in infants and children less than 5 years, 2013–2021: a multinational cohort study using administrative data from five European countries
πŸ‘©β€βš•οΈ Authors: Catherine Quantin, Jonathan Cottenet, Troels T. Graesholt-Knudsen, Laura Elizabeth Cowley, et al.
πŸ“š Journal: The Lancet Regional Health – Europe, 2025

Evaluation of the Quality of Results of Lung Cancer Surgery in France Using the PMSI National Database
πŸ‘©β€βš•οΈ Authors: Alain Bernard, Jonathan Cottenet, Catherine Quantin
πŸ“š Journal: Cancers, 2025

πŸ₯ The effect of primary care on potentially avoidable hospitalizations in France: A cross-sectional study
πŸ‘©β€βš•οΈ Authors: GrΓ©goire Mercier, VΓ©ra Georgescu, Elodie Plancque, Annick Le Pape, Catherine Quantin
πŸ“š Journal: BMC Health Services Research, 2020

Comparison of Epithor clinical national database and medico-administrative database to identify the influence of case-mix on the estimation of hospital outliers
πŸ‘©β€βš•οΈ Authors: Alain Bernard, Pierre Emmanuel Falcoz, Pascal Alexandre Thomas, Pierre Benoit PagΓ¨s, Marcel Dahan, Catherine Quantin
πŸ“š Journal: PLoS ONE, 2019

Is combined cataract surgery associated with acute postoperative endophthalmitis? A nationwide study from 2005 to 2014
πŸ‘©β€βš•οΈ Authors: Catherine P. Creuzot-Garcher, Anne Sophie Mariet, Γ‰ric BenzΓ©nine, Alain Marie Bron, Catherine Quantin
πŸ“š Journal: British Journal of Ophthalmology, 2019

Prof. Dr Xinguo Ma | Materials Science | Best Researcher Award

Prof. Dr Xinguo Ma | Materials Science | Best Researcher Award

Prof. Dr. Xinguo Ma πŸŽ“ is a renowned materials scientist and academic leader at Hubei University of Technology πŸ‡¨πŸ‡³. With a Ph.D. in Microelectronics, his work focuses on thin-film materials, 2D semiconductors, and nanoelectronic devices πŸ§ͺ. He has published over 120+ papers πŸ“š, earned 8000+ citations πŸ“ˆ, and received multiple prestigious awards πŸ†. A global researcher 🌍, he has collaborated with institutions like Tsinghua University and the University of Missouri. Prof. Ma holds editorial roles πŸ“ and has filed 7 patents πŸ”¬, making significant contributions to advanced materials research and innovation. πŸš€

Prof. Dr Xinguo Ma, Hubei University of Technology, China

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πŸŽ“ EducationΒ 

Prof. Dr. Xinguo Ma earned his Ph.D. in Microelectronics and Solid-State Electronics 🧠 from Huazhong University of Science and Technology in 2010. He also holds the esteemed titles of Chutian Scholar, Xiangjiang Scholar, and Nanhu Scholar πŸ…. His global academic journey includes research stints at Tsinghua University πŸ‡¨πŸ‡³, City University of Hong Kong πŸ‡­πŸ‡°, University of Bremen πŸ‡©πŸ‡ͺ, and the University of Missouri-Kansas City πŸ‡ΊπŸ‡Έ. With a strong foundation in materials science, his studies empowered breakthrough innovations in thin-film materials, nanoelectronics, and 2D materials πŸ”¬βœ¨.

🌟 Experience

Prof. Dr. Xinguo Ma πŸŽ“, a distinguished scholar and Vice Dean at Hubei University of Technology 🏫, has over a decade of impactful academic and research experience. He earned his PhD in Microelectronics from Huazhong University of Science and Technology in 2010 🧠. With global research exposure 🌐 at Tsinghua University πŸ‡¨πŸ‡³, CityU of Hong Kong πŸ‡­πŸ‡°, University of Bremen πŸ‡©πŸ‡ͺ, and University of Missouri πŸ‡ΊπŸ‡Έ, his work in thin film materials, 2D semiconductors, and nanoelectronic devices βš™οΈ has led to pioneering innovations like asymmetric heterojunctions and precise surface energy algorithms πŸ”¬βœ¨.

πŸ”¬ Research Focus

Prof. Dr. Xinguo Ma’s research is rooted in cutting-edge materials science, with a strong emphasis on two-dimensional semiconductor materials 🧩, computational materials science πŸ§ πŸ’», and the design and preparation of photocatalytic materials β˜€οΈβš—οΈ. His work combines theoretical modeling with experimental techniques to explore next-gen materials for energy, electronics, and environmental applications 🌍⚑. By innovating in atomic-scale design and surface/interface engineering πŸ”¬βœ¨, he aims to solve real-world challenges in sustainability and nano-device fabrication, pushing the boundaries of what materials can do in the era of green and smart technology πŸš€πŸŒΏ.

πŸ“š Research ContributionsΒ 

Prof. Dr. Xinguo Ma has published over 120 influential papers in top-tier journals including Nano Letters, J. Mater. Chem. C, Angew. Chem. Int. Ed., and Appl. Surf. Sci. πŸ§ͺπŸ“–. His work has received 8100+ citations πŸ“Š, with 5 ESI highly cited papers πŸ”₯ and 1 hot topic paper. He was awarded the Excellent Paper Prize πŸ† by the Hubei Physical Society and has been listed in the Top 2% Global Scientists 🌐 in 2023 and 2024. In 2024, he won two prestigious second prizes for scientific excellence at both national and provincial levels πŸ₯ˆπŸ….

πŸ“˜ Publications

First-Principles Calculations of Graphene-Coated CH₃NH₃PbI₃ toward Stable Perovskite Solar Cells in Humid Environments β˜€οΈπŸ’§
πŸ‘₯ Authors: Jisong Hu, Xinguo Ma, Wangyang Duan, Zhifeng Liu, Ting Liu, Hui Lv, Chuyun Huang, Ling Miao, Jianjun Jiang
πŸ“˜ Journal: ACS Applied Nano Materials (2020)

A Promising Strategy to Tune the Schottky Barrier of a MoSβ‚‚(1βˆ’x)Seβ‚‚β‚“/Graphene Heterostructure by Asymmetric Se Doping βš‘πŸ”¬
πŸ‘₯ Authors: Jisong Hu, Wangyang Duan, Hua He, Hui Lv, Chuyun Huang, Xinguo Ma
πŸ“˜ Journal: Journal of Materials Chemistry C (2019)

Structures and Energetics of Low-Index Stoichiometric BiPOβ‚„ Surfaces πŸ§±βš›οΈ
πŸ‘₯ Authors: Yuan Xu, Xinguo Ma, Jisong Hu, Ang Xu, Zhuoran Wang, Chuyun Huang
πŸ“˜ Journal: CrystEngComm (2019)

Nβ‚‚ Reduction Using Single Transition-Metal Atom Supported on Defective WSβ‚‚ Monolayer as Promising Catalysts: A DFT Study πŸŒΏπŸ”‹
πŸ‘₯ Authors: Xinguo Ma, Jisong Hu, Mingkun Zheng, Di Li, Hui Lv, Hua He, Chuyun Huang
πŸ“˜ Journal: Applied Surface Science (Sept 2019)

Evidence of Direct Z-Scheme g-C₃Nβ‚„/WSβ‚‚ Nanocomposite under Interfacial Coupling: First-Principles Study πŸŒ€πŸŒ—
πŸ‘₯ Authors: Xinguo Ma, Chen Chen, Jisong Hu, Mingkun Zheng, Huihu Wang, Shijie Dong, Chuyun Huang, Xiaobo Chen
πŸ“˜ Journal: Journal of Alloys and Compounds (June 2019)

Controlling Electronic Properties of MoSβ‚‚/Graphene Oxide Heterojunctions for Enhancing Photocatalytic Performance: The Role of Oxygen βš—οΈβ˜οΈ
πŸ‘₯ Authors: Xiaotian Hua, Xinguo Ma, Jisong Hu, Hua He, Guowang Xu, Chuyun Huang, Xiaobo Chen
πŸ“˜ Journal: Physical Chemistry Chemical Physics (2018)

Dr Lin Wang | Materials Science | Women Researcher Award

Dr Lin Wang | Materials Science | Women Researcher Award

πŸ”¬ Dr. Lin Wang is an Associate Professor at Shanghai University, specializing in nanomaterials and optoelectronic devices 🌟. She earned her Ph.D. in 2018 and completed postdoctoral research at Nanyang Technological University, Singapore 🌏. Her work focuses on quantum dot and perovskite LEDs (QD-LEDs & PeLEDs), material stabilization, and device engineering πŸ’‘. With 54+ publications, 10 patents, and ~2000 citations πŸ“šπŸ“ˆ, she leads innovative research in sustainable semiconductor technologies. She actively contributes to national R&D programs and serves on the editorial board of Moore and More πŸ“. Her dynamic career blends academic excellence with cutting-edge material science πŸš€.

Dr Lin Wang, Shanghai University, China

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πŸŽ“ EducationΒ 

Dr. Lin Wang earned her Ph.D. in Nanomaterials and Devices in 2018 πŸ§ͺ. Supported by the prestigious China Scholarship Council (CSC), she conducted both her doctoral (2016–2018) and postdoctoral (2018–2020) research at Nanyang Technological University, Singapore πŸ‡¨πŸ‡³βž‘οΈπŸ‡ΈπŸ‡¬. In 2020, she joined the Key Laboratory of Advanced Display and System Applications at Shanghai University as an Assistant Professor and was promoted to Associate Professor in 2025 πŸ…. Her academic path reflects excellence in semiconductor nanomaterials and optoelectronic devices, and she actively contributes to the research community as a reviewer for top journals like Advanced Materials and Nano Letters πŸ“–βœ¨.

πŸ§ͺ ExperienceΒ 

Dr. Lin Wang earned her Ph.D. in nanomaterials and devices in 2018 πŸŽ“. During her doctoral and postdoctoral research (2016–2020), she worked at Nanyang Technological University, Singapore 🌏, supported by a China Scholarship Council (CSC) scholarship πŸ…. In 2020, she joined Shanghai University as an Assistant Professor and was promoted to Associate Professor in 2025 πŸ§‘β€πŸ«. Her work centers on semiconductor light-emitting nanomaterials and optoelectronic device fabrication πŸ’‘. Dr. Wang actively reviews for top journals such as Advanced Materials and Nano Letters πŸ“š, showcasing her leadership and recognition in the global scientific community 🌟.

πŸ”¬ Research Focus

Dr. Lin Wang’s research revolves around semiconductor nanomaterials and their applications in optoelectronic devices πŸ’‘. She specializes in the design, fabrication, and performance optimization of quantum dot LEDs (QD-LEDs), perovskite LEDs (PeLEDs), and lead-free nanomaterials 🌱. Her work bridges material chemistry and device engineering, focusing on improving stability, efficiency, and sustainability 🌟. By exploring core/shell structures, nanocrystal passivation, and hybrid material integration, Dr. Wang contributes to the development of next-generation display and lighting technologies πŸ–₯οΈπŸ”‹. Her research not only advances fundamental science but also supports eco-friendly innovation in energy-efficient optoelectronics 🌍✨.

πŸ’‘ Scientific Impact

Dr. Lin Wang has made outstanding contributions to the field of hybrid material-based light-emitting diodes (LEDs), particularly quantum dot LEDs (QD-LEDs) and perovskite LEDs (PeLEDs) 🌈. Her work emphasizes micro/nanofabrication, carrier transport engineering, and in-depth device mechanism analysis βš™οΈπŸ”. She has published 50+ papers in top-tier journals like Nano Letters, Advanced Materials, and Materials Today πŸ“š, earning nearly 2000 citations and an h-index of 25 πŸ“ˆ. Through her innovations in semiconductor architecture and light-emitting efficiency, she is driving the advancement of low-cost, high-performance optoelectronic technologies for future display and lighting systems πŸ’‘πŸŒ.

🀝 Research Leadership

Over the past five years, Dr. Lin Wang has played a vital role as Key Personnel in two National Key Research and Development Programs of China πŸ‡¨πŸ‡³. Her collaborative work spans core/shell design for stabilizing perovskite nanocrystals πŸ§ͺ, advancing lead-free perovskite technologies 🌱, and applying perovskite nanoplatelets in light-emitting diodes (LEDs) πŸ’‘. These initiatives reflect her commitment to sustainable, high-performance materials and position her at the forefront of semiconductor innovation πŸš€. Her interdisciplinary teamwork fosters innovation, addressing both fundamental scientific challenges and real-world optoelectronic applications πŸ”¬πŸŒ.

πŸ“˜ PublicationsΒ 

Blue Light-Emitting Diodes Based on Halide Perovskites: Recent Advances and Strategies
πŸ‘©β€πŸ”¬ Authors: J. Zhang, L. Wang, X. Zhang, G. Xie, G. Jia, J. Zhang, X. Yang
πŸ“° Journal: Materials Today, Vol. 51, pp. 222–246, 2021
πŸ” Citations: 93
πŸ’‘ Theme: Perovskite-based blue LEDs and strategies for improvement

Highly Efficient Green Light‐Emitting Diodes from All‐Inorganic Perovskite Nanocrystals Enabled by a New Electron Transport Layer
πŸ‘©β€πŸ”¬ Authors: B. Liu, L. Wang, H. Gu, H. Sun, H.V. Demir
πŸ“° Journal: Advanced Optical Materials, 6(11), 1800220, 2018
πŸ” Citations: 92
🌟 Theme: Green PeLEDs enhanced by novel ETL

Novel Properties and Applications of Chiral Inorganic Nanostructures
πŸ‘©β€πŸ”¬ Authors: L. Xiao, T. An, L. Wang, X. Xu, H. Sun
πŸ“° Journal: Nano Today, Vol. 30, 100824, 2020
πŸ” Citations: 88
πŸŒ€ Theme: Chirality in inorganic nanomaterials

Β Improving Efficiency and Stability in Quasi-2D Perovskite Light-Emitting Diodes by a Multifunctional LiF Interlayer
πŸ‘©β€πŸ”¬ Authors: M. You, H. Wang, F. Cao, C. Zhang, T. Zhang, L. Kong, L. Wang, D. Zhao, …
πŸ“° Journal: ACS Applied Materials & Interfaces, 12(38), 43018–43023, 2020
πŸ” Citations: 72
🧱 Theme: Interlayer engineering for Q-2D PeLEDs

Quasi‐Shell‐Growth Strategy Achieves Stable and Efficient Green InP Quantum Dot Light‐Emitting Diodes
πŸ‘©β€πŸ”¬ Authors: Q. Wu, F. Cao, S. Wang, Y. Wang, Z. Sun, J. Feng, Y. Liu, L. Wang, Q. Cao, Y. Li, …
πŸ“° Journal: Advanced Science, 9(21), 2200959
πŸ” Citations: 64
🎯 Theme: Green QD-LEDs via quasi-shell strategies

Dr Aqsa Munir | Materials Science | Best Researcher Award

Dr Aqsa Munir | Materials Science | Best Researcher Award

Dr. Aqsa Munir is a final-year MBBS student at Dow Medical College with a passion for clinical excellence and research. She has trained in OB/GYN, vascular surgery, and cardiology at top institutions like Aga Khan University Hospital and NICVD. An accomplished researcher, she has contributed to clinical audits, systematic reviews, and meta-analyses on cardiovascular disease, telemedicine, and pharmacology. Her research has been presented internationally, earning her prestigious awards πŸ†. Preparing for the PLAB exams, she aims to expand her expertise globally 🌍. Her dedication to advancing medical science makes her a promising future leader in healthcare. πŸ’‰πŸ“–

Dr Aqsa Munir, Dow Medical College, Pakistan

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Education πŸŽ“

Dr. Aqsa Munir is pursuing her Bachelor of Medicine, Bachelor of Surgery (MBBS) at Dow Medical College, with an expected qualification in 2025 πŸ₯πŸ“–. Her strong foundation in medical sciences began with her Higher Secondary Certificate (HSC) in Pre-Medical from PECHS Government College, which she successfully completed in 2019 πŸ“šπŸ”¬. With a passion for medicine and continuous learning, she is dedicated to expanding her expertise in clinical practice and research. As she prepares for her future medical career, her academic journey reflects excellence, perseverance, and a commitment to improving healthcare. πŸš‘βœ¨

ExperienceΒ πŸ₯🩺

Dr. Aqsa Munir has gained extensive clinical experience through electives in OB/GYN, vascular surgery, and cardiology at top medical institutions. At Aga Khan University Hospital (July–August 2023), she assisted in Caesarean sections, vaginal deliveries, and antenatal care πŸ‘ΆπŸ‘©β€βš•οΈ. During her time at the Trauma Centre (February–March 2023), she participated in vascular surgeries, including bypass grafting and aneurysm repair 🩸πŸ”ͺ. At NICVD (June–July 2022), she managed cardiovascular emergencies, performed ECGs, and collaborated on treatment plans β€οΈπŸ“Š. Her diverse hands-on experience highlights her dedication to patient care, surgical procedures, and clinical excellence. πŸš‘βœ¨

Awards & Certifications πŸ†πŸ“œ

Dr. Aqsa Munir has received prestigious awards and certifications for her dedication to medical research and clinical excellence. She secured first prize at the 3rd Internal Medicine Conference (AKUH) πŸ… for her clinical audit at a tertiary hospital. She holds a Surgery Scape Certificate and has participated in a multidisciplinary tumor board πŸŽ—οΈ. Dr. Munir has earned letters of recommendation from AKUH, Trauma Centre, and NICVD βœ‰οΈ. She completed RCOP research methodology workshops πŸ§ͺπŸ“Š and actively contributed to student-led clinics and healthcare fundraising initiatives, showcasing her commitment to medical advancement and community service. 🀝❀️

Research Focus πŸ”¬

Dr. Aqsa Munir’s research primarily focuses on clinical outcomes, public health disparities, and innovative medical interventions. Her studies investigate racial and gender disparities in necrotizing fasciitis πŸ₯, trends in mortality rates πŸ“Š, and the impact of telemedicine on cardiovascular health πŸ–₯️❀️. She has also explored gastrointestinal disorders, including non-alcoholic fatty liver disease πŸ‹οΈβ€β™€οΈπŸ₯— and inflammatory bowel disease. Through systematic reviews, meta-analyses, and nationwide cohort studies, Dr. Munir provides critical insights into healthcare challenges and potential solutions, making significant contributions to evidence-based medicine and global healthcare improvements. πŸŒπŸ’‰

Publications πŸ“„

Female gender and racial minority status is associated with Poor clinical outcomes and higher healthcare resource utilization in necrotizing fasciitis: Analysis of a Nationwide database in the United States

Trends in Necrotizing Fasciitis‐Associated Mortality in the United States 2003–2020: A CDC WONDER Database Population‐Based Study

Letter to the editor: Non‐alcoholic fatty liver disease: The importance of physical activity and nutrition educationβ€”A randomized controlled study

Letter: Critical Insights on a Nationwide Cohort Study of Inflammatory Bowel Disease, Histological Activity and Fracture Risk

Telemedical strategies for improving systolic blood pressure control in secondary prevention of cerebrovascular events-a systematic review and meta-analysis

Prof. Dr Yu Song | Materials Science | Best Researcher Award

Prof. Dr Yu Song | Materials Science | Best Researcher Award

Prof. Dr. Yu Song is a distinguished expert in soil mechanics, contaminated soil remediation, and geotechnical stabilization πŸ—οΈ. She earned her Ph.D. in Geological Engineering from Guilin University of Technology πŸŽ“ and has held academic roles at Wuhan University and Northern Illinois University 🌏. Her research focuses on microbial-induced soil stabilization, heavy metal pollution control, and soil reinforcement technologies πŸŒ±βš™οΈ. With numerous high-impact publications, national research grants, and industry collaborations, she has made groundbreaking contributions to sustainable geotechnical solutions. Her work continues to drive innovation in soil remediation and environmental engineering πŸŒŽπŸ”.

Prof. Dr Yu Song, Guilin University of Technology, China

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Education πŸŽ“

Prof. Dr. Yu Song has a strong academic foundation in civil and geological engineering πŸ—οΈ. She is currently a visiting scholar at Wuhan University (2024–present) and previously conducted research at Northern Illinois University, USA (2018–2019) 🌏. She earned her Ph.D. in Geological Engineering from Guilin University of Technology (2017–2022) πŸ…. Her academic journey includes an M.Sc. in Civil Engineering (Disaster Prevention & Mitigation) from Guilin University of Technology (2004–2007) and a B.Sc. in Civil Engineering (Transportation Infrastructure) from Liaoning Technical University (2000–2004) πŸ“–. Her education has shaped her expertise in soil mechanics and geotechnical engineering πŸ”¬πŸŒ±.

Affiliations πŸ›οΈ

Prof. Dr. Yu Song is a faculty member at the School of Civil Engineering, Guilin University of Technology πŸ—οΈπŸ“š, where she conducts cutting-edge research in geotechnical engineering and soil stabilization. She is also affiliated with the Key Laboratory of Karst Dynamics, MNR & Guangxi, Institute of Karst Geology, CAGS 🌍πŸͺ¨, focusing on karst landform dynamics, environmental soil remediation, and foundation engineering. Her work integrates civil engineering principles with environmental geoscience, contributing to sustainable infrastructure development, pollution control, and soil mechanics advancements. Her research supports real-world applications in geoengineering and ecological conservation πŸŒ±β™»οΈ.

AchievementsπŸ“šπŸ—οΈ

Prof. Dr. Yu Song has made significant contributions to geotechnical engineering, soil stabilization, and environmental remediation through her extensive scientific publications πŸ“–. She has authored multiple SCI-indexed research papers in prestigious journals such as Carbonates and Evaporites, Biogeotechnics, Geomicrobiology Journal, Environmental Pollution, and Sustainability πŸŒπŸ”¬. Her studies focus on microbial-induced carbonate precipitation (MICP), heavy metal-contaminated soil stabilization, red clay mechanics, and urban land subsidence monitoring πŸ‘βš™οΈ. Her cutting-edge research advances sustainable soil engineering and contributes to eco-friendly soil treatment solutions β™»οΈπŸ›€οΈ.

Research Focus πŸ”¬πŸŒ±

Prof. Dr. Yu Song specializes in geotechnical engineering and environmental soil remediation πŸ—οΈπŸŒ. Her research focuses on the mechanical properties and stabilization techniques of special soils 🏞️, including expansive clays and soft foundations. She investigates heavy metal-contaminated soils, exploring solute migration mechanisms and eco-friendly solidification techniques βš—οΈπŸ› οΈ. Additionally, she develops microbial-induced soil stabilization methods for roadbed reinforcement and calcareous sands 🦠🏝️. Her innovative work in microbial geotechnology and sustainable soil improvement contributes to environmental protection and geotechnical engineering advancements, offering solutions for infrastructure stability and soil contamination control πŸŒ±β™»οΈ.

Publications πŸ“„

Study on Mechanical Strength and Microstructure of Zinc-Contaminated Soil Solidified by Microbial-Induced Magnesium Carbonate Precipitation πŸ—οΈπŸŒ±
Authors: Yu Song, Jiaqi Li, Wei Liu, Yuling Chen, Xiaotong Gao
Journal: Geomicrobiology Journal, 2025

Effect of Acid Type on Biomineralization of Soil Using Crude Soybean Urease Solution 🦠πŸ§ͺ
Authors: Yajie Weng, Hanjiang Lai, Junjie Zheng, Jianwei Zhang, Yu Song
Journal: Journal of Rock Mechanics and Geotechnical Engineering, 2024

Study on the Physical Properties of Red Clay Cured by Different External Admixtures Combined with Enzyme Induced Carbonate Precipitation Technology πŸ—οΈπŸ’§
Authors: Yu Song, Yuling Chen, Jichun Cheng, Jianwei Zhang, Junjie Zheng
Journal: Carbonates and Evaporites, 2024

Strength Characteristics and Microscopic Mechanism of Activated MgO-Modified Biochar Carbonization Curing Zn²⁺ Polluted Soil πŸŒβš™οΈ
Authors: Shuguang Zhang, Mingzhi Zhang, Jiangshan Li, Yu Song
Journal: Construction and Building Materials, 2024

Her research advances soil stabilization, biomineralization, and eco-friendly contamination mitigation πŸŒΏπŸ”.

Mr Jagat Ram Kanwar | Quantum Materials | Best Researcher Award

Mr Jagat Ram Kanwar | Quantum Materials | Best Researcher Award

Mr. Jagat Ram Kanwar is a passionate quantum physicist specializing in Quantum Foundations, Quantum Computation, and Quantum Information Theory βš›οΈπŸ’». He is currently pursuing a Ph.D. in Physics at Himachal Pradesh University, Shimla 🏫. His research focuses on quantum entanglement, teleportation, and computational physics, contributing to advancements in secure communication and quantum computing πŸ”—πŸ”’. He has published in high-impact journals πŸ“š and collaborated with leading researchers. His academic excellence is recognized through UGC NET-JRF qualification and participation in prestigious conferences πŸ†. His dedication and contributions make him a promising researcher in quantum science πŸš€.

Mr Jagat Ram Kanwar, Himachal Pradesh University, Shimla, India

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Education πŸŽ“

Mr. Jagat Ram Kanwar is currently pursuing a Ph.D. in Physics at Himachal Pradesh University, Shimla (since December 2016) πŸ«πŸ”¬. He has qualified for the UGC NET-JRF, showcasing his expertise in quantum physics and research excellence βš›οΈπŸ“–. He holds an M.Sc. in Physics (53.85%) and a B.Sc. degree (47.8%) πŸŽ“. His strong academic foundation began with Higher Secondary education (57%) and Matriculation (67%) πŸ“Š. With a consistent academic journey in theoretical and applied physics, he continues to make impactful contributions to quantum information science and computational physics πŸš€.

Experience πŸŽ“

Mr. Jagat Ram Kanwar has gained valuable teaching experience by instructing undergraduate students for one year at a private university πŸ«πŸ“š. Additionally, he has taught M.Sc. Physics students at the Department of Physics, Himachal Pradesh University (HPU) for two semesters πŸŽ―πŸ“–. His expertise in quantum mechanics and computational physics allows him to mentor students in complex theoretical concepts and their real-world applications βš›οΈπŸ§ . Through his academic experience, he has helped shape the next generation of physicists, fostering curiosity and excellence in the field of quantum information science πŸš€πŸ”¬.

Research Focus πŸ“‘

Mr. Jagat Ram Kanwar specializes in quantum teleportation, quantum entanglement, and quantum computation πŸ”¬πŸ’». His research explores Quantum Teleportation Using Symmetric States as a Quantum Channel, focusing on secure quantum communication and efficient transmission of quantum information πŸ”„πŸ”—. By leveraging symmetric multi-qubit states, he investigates how quantum entanglement can optimize teleportation protocols for future quantum networks and cryptographic systems πŸ”πŸš€. His work contributes to the advancement of quantum information theory, paving the way for real-world applications in secure data transfer and quantum computing technologies 🌍⚑.

Research PapersΒ πŸ“„

Mr. Jagat Ram Kanwar has made significant contributions to quantum information science through his research publications in high-impact journals πŸ†πŸ“š. His paper, “Entanglement Concentration of Multi-Qubit Entangled States: An IBM Quantum Experience,” published in Quantum Studies, Mathematics and Foundations (Springer), explores quantum entanglement and computational experiments using IBM’s quantum processors βš›οΈπŸ’». Another key publication, “Quantum Teleportation Using Symmetric States,” published in the International Journal of Theoretical Physics (Springer), advances secure quantum communication techniques πŸ”„πŸ“‘. His research plays a crucial role in the development of future quantum technologies πŸš€πŸ”’.

Publications πŸ“š

Quantum Teleportation Using Symmetric States as Quantum Channel βš›οΈπŸ“‘

✍️ Authors: Jagat Ram Kanwar, Dev Dutt, Shashi Kumar Dhiman πŸ‘¨β€πŸ”¬πŸ“š

πŸ“– Journal: International Journal of Theoretical Physics πŸ›οΈπŸ“

πŸ“… Year: 2025 πŸ“†

πŸ”— Focus: This study explores quantum teleportation protocols using symmetric multi-qubit states as an efficient quantum channel, providing insights into secure quantum communication and next-generation quantum networks πŸ”„πŸ”—. The research enhances quantum information processing, contributing to secure data transmission and computational advancements in quantum mechanics πŸš€πŸ’‘.

Prof. Dr Nimet Yilmaz Canli | Materials Science | Best Researcher Award

Prof. Dr Nimet Yilmaz Canli | Materials Science | Best Researcher Award

Prof. Nimet Yilmaz Canli is a renowned physicist specializing in liquid crystals, organic photovoltaics, and dielectric materials ⚑. She earned her Ph.D. in Physics from Yildiz Technical University, Turkey (2012) and has since advanced to Full Professor at the same institution 🏫. Her research focuses on fabricating and characterizing advanced materials for optoelectronic applications, contributing to solar energy conversion, flexible electronics, and nanotechnology β˜€οΈπŸ“‘. With high-impact publications, prestigious research grants, and international awards, she is a leading expert in applied physics and materials science, making significant advancements in sustainable energy and display technologies πŸš€.

Prof. Dr Nimet Yilmaz Canli, Yildiz Technical University, Turkey

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Education πŸŽ“

Prof. Nimet Yilmaz Canli holds a Ph.D. in Physics from Yildiz Technical University, Turkey (2012), where she specialized in mesomorphic, morphologic, and electro-optic properties of liquid crystal systems βš‘πŸ“‘. She earned her M.Sc. in Physics from the same university (2004), focusing on the effects of copper diffusion on CdTe films’ electrical and optical properties πŸ­πŸ”¬. Her academic journey began with a B.Sc. in Physics from Karadeniz Technical University (2001) πŸ“š. With a strong background in material sciences and optoelectronics, her research continues to advance liquid crystal technology, photovoltaics, and nanomaterials πŸš€.

Experience 🏫

Prof. Nimet Yilmaz Canli has had a distinguished academic career in physics, progressing from Research Assistant (2001–2015) to Professor (2023–present) at Yildiz Technical University πŸ“š. She specializes in liquid crystals, optical materials, and nanophysics. As an educator, she has taught Physics 1, 2, and 3, Modern Physics, and Liquid Crystal Applications at the undergraduate level, while also lecturing on Liquid Crystals’ Physical Properties at the Master’s level πŸ“–. Additionally, she has played a crucial role in developing and setting up undergraduate physics laboratory experiments, enhancing experimental learning and research in material sciences βš‘πŸ”.

Awards and Fellowships πŸ†

Prof. Nimet Yilmaz Canli has received numerous prestigious awards and fellowships in recognition of her contributions to materials science and physics. She was awarded the Alexander von Humboldt Foundation Scholarship (2017) for her outstanding research in liquid crystals and nanomaterials πŸ”¬. She has also received Scientific Publication Awards from The Scientific and Technological Research Council of Turkey (TUBITAK) for her impactful research πŸ“š. Additionally, she was granted a European Science Foundation (ESF) exchange fellowship (2008) to conduct research at Johannes Kepler University, Austria, further enhancing her expertise in optoelectronics and photovoltaics 🌍⚑.

Research Focus πŸ”¬

Prof. Nimet Yilmaz Canli specializes in liquid crystals, dielectric materials, and organic electronics, with a strong focus on electro-optical properties and nanomaterials. Her research explores the dielectric behavior of nematic and bent-core liquid crystals, advancing display technologies, flexible electronics, and energy-efficient materials πŸ“‘πŸ“±. She also investigates polymeric ionic liquids, chiral pyridine-based composites, and novel biphenyl-based liquid crystals, contributing to next-generation optoelectronic applications πŸŒπŸ’‘. Through innovative synthesis and characterization techniques, she enhances the performance of liquid crystal systems for photonics, sensors, and nanotechnology, shaping the future of advanced electronic materials πŸš€.

Publications πŸ“„

“Diffusion and Influence of Cu on Properties of CdTe Thin Films and CdTe/CdS Cells” β˜€οΈβš‘
πŸ‘¨β€πŸ’» Authors: T.D. Dzhafarov, S.S. Yesilkaya, N.Y. Canli, M. Caliskan
πŸ“š Journal: Solar Energy Materials and Solar Cells (2005)
πŸ”’ Citations: 109

“Chiral (S)-5-Octyloxy-2-[{4-(2-Methylbuthoxy)-Phenylimino}-Methyl]-Phenol Liquid Crystalline Compound as Additive into Polymer Solar Cells” πŸŒπŸ”‹
πŸ‘¨β€πŸ’» Authors: N.Y. Canli, S. GΓΌnes, A. Pivrikas, A. Fuchsbauer, D. Sinwel, N.S. Sariciftci
πŸ“š Journal: Solar Energy Materials and Solar Cells (2010)
πŸ”’ Citations: 60

“Characterization and Investigation of the Mesogenic, Thermo-Morphologic and Thermotropic Properties of New Chiral (S)-5-Octyloxy-2-[{4-(2-Methylbuthoxy)-Phenylimino (Methyl …” πŸ—οΈπŸ“‘
πŸ‘¨β€πŸ’» Authors: B.B. Eran, A. Nesrullajev, N.Y. Canli
πŸ“š Journal: Materials Chemistry and Physics (2008)
πŸ”’ Citations: 32

“Bilayer Polymer/Fullerene Solar Cells with a Liquid Crystal” β˜€οΈπŸ“±
πŸ‘¨β€πŸ’» Authors: N.Y. Canli, M. Safak-Boroglu, B. Bilgin-Eran, S. GΓΌnes
πŸ“š Journal: Thin Solid Films (2014)
πŸ”’ Citations: 18

“The Role of Temperature on Dielectric Relaxation and Conductivity Mechanism of Dark Conglomerate Liquid Crystal Phase” βš‘πŸ”¬
πŸ‘¨β€πŸ’» Authors: A. Yildiz, N.Y. Canli, Z.G. Γ–zdemir, H. Ocak, B.B. Eran, M. Okutan
πŸ“š Journal: Physica B: Condensed Matter (2016)
πŸ”’ Citations: 16

Prof. Nimet Yilmaz Canli’s groundbreaking research in liquid crystal systems, dielectric materials, and organic solar cells contributes significantly to optoelectronics, energy conversion, and advanced materials science πŸš€.

Assist. Prof. Dr Hang Xu | Smart Materials | Best Researcher Award

Assist. Prof. Dr Hang Xu | Smart Materials | Best Researcher Award

Assist. Prof. Dr. Hang Xu is an Assistant Professor at Concordia University, specializing in mechanical metamaterials, aerospace structures, and soft robotics πŸš€πŸ€–. He earned his Ph.D. in Mechanical Engineering from McGill University and an M.Sc. in Aircraft Design from Beihang University 🏫✈️. Before joining academia, he worked as a Research Associate at Imperial College London and a Mitacs Postdoctoral Fellow at Siemens. His research focuses on programmable materials for sensors, actuators, medical devices, and aerospace applications βš™οΈπŸ₯. By integrating advanced materials and additive manufacturing, he aims to revolutionize engineering performance and functionality πŸš€πŸ†.

Assist. Prof. Dr Hang Xu, Concordia University, Canada

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EducationΒ  πŸŽ“

Dr. Hang Xu holds a Ph.D. in Mechanical Engineering from McGill University, Canada (2013-2018) πŸŽ“πŸ”¬, where he specialized in mechanical metamaterials and additive manufacturing. He earned his Master of Science in Aeronautic Science and Engineering from Beihang University, China (2011-2013) βœˆοΈβš™οΈ, focusing on aircraft design and aerospace structures. He completed his Bachelor of Engineering at Shenyang Aerospace University (2007-2011) πŸ«πŸš€. His strong academic foundation in mechanical and aerospace engineering has shaped his research in advanced materials, soft robotics, and multi-scale mechanics, driving cutting-edge innovations in engineering πŸ”πŸ†.

Experience 🏫

Dr. Hang Xu is currently an Assistant Professor at Concordia University, Canada (2022-present) πŸ«πŸš€, specializing in mechanical metamaterials, aerospace structures, and additive manufacturing. Previously, he was a Research Associate at Imperial College London (2020-present) πŸ”βš™οΈ, focusing on 3D-printable materials and advanced manufacturing. He also worked as a Mitacs Postdoctoral Fellow at Siemens, Canada (2019-2020) πŸ”₯πŸ› οΈ, researching combustion systems. Before that, he was a Postdoctoral Researcher at McGill University (2018-2019) πŸ“š, exploring mechanical properties of materials. His diverse experience in academia and industry bridges engineering research with real-world applications πŸš€πŸ†.

Research Focus πŸ”¬

Dr. Hang Xu specializes in mechanical metamaterials, lightweight structures, and multi-scale material mechanics πŸ—οΈβš™οΈ. His research explores aircraft structure design, focusing on strong yet ultra-light materials for aerospace applications βœˆοΈπŸ› οΈ. He advances multi-material additive manufacturing, enabling precision-engineered components for robotics and biomedical devices 🦾πŸ₯. His work in soft robotics enhances flexible, programmable materials that adapt to changing environments πŸ€–πŸ”. By integrating computational design and experimental mechanics, his research pushes the boundaries of high-performance, reconfigurable materials, driving next-generation innovations in aerospace, robotics, and advanced manufacturing πŸš€πŸ†.

Contributions πŸš€

Dr. Hang Xu has made significant contributions in mechanical metamaterials, additive manufacturing, and deployable medical devices βš™οΈπŸ—οΈ. His work on metamaterials with designable thermal expansion enables precision-controlled deformation, allowing materials to switch between high-stiffness and high-strength modes πŸ¦ΎπŸ“. These multi-stable materials have broad applications in soft robotics, aerospace structures, and smart wings βœˆοΈπŸ€–. His research has led to a patent and publications in top-tier journals like Acta Materialia and Journal of the Mechanics and Physics of Solids, driving next-generation innovations in reconfigurable materials and biomedical engineering πŸ†.

Publications πŸ“„

“Multiscale Isogeometric Topology Optimization for Lattice Materials” βš™οΈπŸ“Š
πŸ‘¨β€πŸ’» Authors: Y. Wang, H. Xu, D. Pasini
πŸ“š Journal: Computer Methods in Applied Mechanics and Engineering (Citations: 249, 2017)

“Structurally Efficient Three-Dimensional Metamaterials with Controllable Thermal Expansion” πŸ—οΈπŸŒ‘οΈ
πŸ‘¨β€πŸ’» Authors: H. Xu, D. Pasini
πŸ“š Journal: Scientific Reports (Citations: 166, 2016)

“Routes to Program Thermal Expansion in Three-Dimensional Lattice Metamaterials Built from Tetrahedral Building Blocks” πŸ”πŸ“
πŸ‘¨β€πŸ’» Authors: H. Xu, A. Farag, D. Pasini
πŸ“š Journal: Journal of the Mechanics and Physics of Solids (Citations: 94, 2018)

“Multilevel Hierarchy in Bi-Material Lattices with High Specific Stiffness and Unbounded Thermal Expansion” πŸ”¬βš™οΈ
πŸ‘¨β€πŸ’» Authors: H. Xu, A. Farag, D. Pasini
πŸ“š Journal: Acta Materialia (Citations: 90, 2017)

“Thermally Actuated Hierarchical Lattices with Large Linear and Rotational Expansion” πŸ“‘πŸ”©
πŸ‘¨β€πŸ’» Authors: H. Xu, A. Farag, R. Ma, D. Pasini
πŸ“š Journal: Journal of Applied Mechanics (Citations: 22, 2019)

“Embedded Pressure Sensing Metamaterials Using TPU-Graphene Composites and Additive Manufacturing” πŸ¦ΎπŸ“‘
πŸ‘¨β€πŸ’» Authors: I. Sanz-Pena, M. Hopkins, N.R. Carrero, H. Xu
πŸ“š Journal: IEEE Sensors Journal (Citations: 6, 2023)

Dr. Hang Xu’s highly cited research in metamaterials, additive manufacturing, and multi-scale mechanics is driving innovation in aerospace, robotics, and smart materials πŸš€πŸ†.

Dr Chang Liu | Quantum Materials | Best Researcher Award

Dr Chang Liu | Quantum Materials | Best Researcher Award

Dr. Chang Liu is a highly accomplished physicist specializing in quantum materials and quantum transport. He is currently an Associate Professor at the School of Physics, Renmin University of China. With a strong background in experimental physics, he has made groundbreaking contributions to the study of 2D topological quantum materials, particularly in the quantum anomalous Hall effect. His research has been published in top-tier journals such as Nature Materials, Nature Physics, Advanced Materials, and Physical Review Letters, earning him over 2,000 citations in the scientific community.

Dr Chang Liu School of Physics, Renmin University of China, China

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πŸŽ“ Education

Dr. Chang Liu holds a Ph.D. in Physics from Tsinghua University (2019) πŸŽ“, where he specialized in 2D topological quantum materials and quantum transport phenomena. His doctoral research laid a strong foundation for his contributions to the quantum anomalous Hall effect ⚑. Before that, he completed his undergraduate and master’s studies in physics πŸ“š, developing expertise in condensed matter physics and experimental techniques πŸ”¬. His academic journey has been marked by excellence, leading to groundbreaking research in low-power topological transport devices πŸš€. With extensive training from leading institutions, Dr. Liu continues to push the boundaries of quantum materials science.

πŸ› οΈ Skills & ExpertiseΒ 

Dr. Chang Liu is an expert in materials science and nanotechnology πŸ”¬, specializing in material characterization and advanced materials development βš™οΈ. His research focuses on thin films, nanotechnology, and magnetic materials 🧲, with applications in electronics and energy storage ⚑. He has extensive experience in electrical conductivity and low-temperature physics ❄️, enabling the design of next-generation materials with superior physical properties πŸ—οΈ. His expertise in material characteristics and conductivity plays a crucial role in developing high-performance materials for industrial and technological applications πŸš€. His deep knowledge and innovative approach drive advancements in modern materials engineering 🌍.

πŸ”¬ Research FocusΒ 

Dr. Chang Liu specializes in quantum materials and quantum transport, exploring the fundamental physics of exotic materials βš›οΈ. His research focuses on low-temperature quantum effects, electron transport phenomena, and topological materials πŸŒ€, advancing the field of next-generation electronics and quantum computing πŸ’». He investigates quantum transport mechanisms in novel materials, such as topological insulators, superconductors, and low-dimensional systems ⚑. His work contributes to unlocking new electronic properties, enhancing energy efficiency, and developing future quantum devices πŸš€. Through cutting-edge material characterization and nanotechnology, he is shaping the future of quantum engineering and condensed matter physics 🌍.

πŸ“„ Publications

Magnetic-Field-Induced Robust Zero Hall Plateau State in MnBiβ‚‚Teβ‚„ Chern Insulator πŸ§²βš›οΈ
πŸ‘¨β€πŸ« Authors: Chang Liu, et al.
πŸ“– Journal: Nature Communications (2021)

Antiferromagnetic Topological Insulator MnBiβ‚‚Teβ‚„: Synthesis and Magnetic Properties πŸ—οΈπŸ”¬
πŸ‘¨β€πŸ« Authors: Chang Liu, et al.
πŸ“– Journal: Physical Chemistry Chemical Physics (2020)
Distinct Quantum Anomalous Hall Ground States Induced by Magnetic Disorders βš‘πŸ“‘

πŸ‘¨β€πŸ« Authors: Chang Liu, et al.
πŸ“– Journal: Physical Review X (2020)

Robust Axion Insulator and Chern Insulator Phases in a Two-Dimensional Antiferromagnetic Topological Insulator πŸŒ€πŸ§²
πŸ‘¨β€πŸ« Authors: Chang Liu, et al.
πŸ“– Journal: Nature Materials (2020)

Direct Evidence of Ferromagnetism in a Quantum Anomalous Hall System πŸ—οΈβš‘
πŸ‘¨β€πŸ« Authors: Chang Liu, et al.
πŸ“– Journal: Nature Physics (2018)

Enhancing the Quantum Anomalous Hall Effect by Magnetic Codoping in a Topological Insulator πŸ”¬πŸ“‘
πŸ‘¨β€πŸ« Authors: Chang Liu, et al.
πŸ“– Journal: Advanced Materials (2018)

These high-impact publications showcase Dr. Liu’s expertise in quantum materials, magnetism, and topological physics, making significant advancements in modern condensed matter research πŸš€.

Assoc. Prof. Dr Segun Talabi | Materials Science | Excellence in Research Award

Assoc. Prof. Dr Segun Talabi | Materials Science | Excellence in Research Award

Assoc. Prof. Dr Segun Talabi, Oak Ridge National Laboratory, United States

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πŸŽ“ Education

Assoc. Prof. Dr. Segun Talabi is a distinguished materials scientist and engineer πŸ—οΈ with an outstanding academic background. He earned his Ph.D. in Materials Science and Engineering (2020) from Universidade Federal de SΓ£o Carlos, Brazil πŸŽ–οΈ, following a Master’s degree in Metallurgical and Materials Engineering (Distinction, 5.00/5.00) from the University of Lagos (2011) πŸ…. He completed his B.Eng. (CGPA 4.32/5.00) from the Federal University of Technology, Akure (2008) βš™οΈ. Additionally, he is a Registered Engineer with the Council for the Regulation of Engineering in Nigeria πŸ”¬. His strong academic foundation fuels his innovative contributions to materials science and engineering πŸš€.

πŸ‘¨β€πŸ« Professional ExperienceΒ 

Assoc. Prof. Dr. Segun Talabi is an accomplished materials engineer and academic leader πŸ—οΈ. Currently, he is a Postdoctoral Research Associate at Oak Ridge National Laboratory, USA (2023–Present) πŸ”¬, contributing to advanced materials research and additive manufacturing. Previously, he served as an Associate Professor at the University of Ilorin, Nigeria πŸŽ“, where he held various academic roles, including Senior Lecturer and Lecturer (2012–2024). His industry experience includes serving as Production Supervisor at Nigerian Foundries Limited (2012) βš™οΈ. Additionally, he has played key administrative roles, serving on committees for accreditation, faculty library management, and student industrial training coordination πŸ“š. His dedication to research, education, and industry collaboration continues to shape the future of materials engineering πŸš€.

πŸ† Scholarships, Prizes & GrantsΒ 

Assoc. Prof. Dr. Segun Talabi has received prestigious scholarships, research grants, and academic awards πŸŽ–οΈ in recognition of his exceptional contributions to materials engineering πŸ—οΈ. He was awarded the University of Ilorin Senate Research Grant (2023) for developing smokeless composite briquettes and received National Research Fund (NRF) Grants (2021) for studies on food contamination and lithium ore beneficiation πŸ”¬. He secured the Twas-CNPq Ph.D. Fellowship (Italy-Brazil, 2016–2020) and a Training Fellowship at the University of SΓ£o Paulo (2019) 🌍. His excellence earned him the Best Graduating Student Award (2011) and multiple Deans’ List Distinctions πŸ“š, showcasing his academic brilliance and research impact πŸš€.

πŸ› οΈ Skills & ExpertiseΒ 

Assoc. Prof. Dr. Segun Talabi possesses expert-level comprehension and communication skills πŸ—£οΈ, enabling effective scientific collaboration and knowledge dissemination πŸ“š. He is highly proficient in computer applications and specialized software πŸ’», including Microsoft Office, OriginPro, Spectragryph, Avantage, Search-Match, and GATAN, essential for data analysis and materials research πŸ”¬. His expertise extends to state-of-the-art material characterization techniques and advanced manufacturing processes βš™οΈ, driving innovative solutions in materials science. His strong analytical abilities and hands-on experience make him a valuable asset in both academic and industrial research πŸš€.

πŸ”¬ Research FocusΒ 

Assoc. Prof. Dr. Segun Talabi’s research revolves around environmentally sustainable materials, polymeric biocomposites, and advanced material processing πŸŒ±βš™οΈ. His work explores the integration of animal-based fillers and fibers in polymeric composites to develop eco-friendly and high-performance materials 🌍. He specializes in thermomechanical processing of chitosan citrate-based materials, injection-molded polypropylene composites, and hybrid fiber-reinforced polymers πŸ—οΈ. His studies on food grinding disc corrosion and thermoplastic starch production provide innovative solutions for sustainable manufacturing and material durability πŸ”¬. His expertise in nanofiber reinforcement, biodegradable polymers, and composite processing is shaping the future of green materials and polymer engineering πŸš€.

πŸ“„ Publications

Study of Mechanical Behaviour of Coconut Shell Reinforced Polymer Matrix Composite πŸŒ°βš™οΈ
πŸ‘¨β€πŸ« Authors: J.O. Agunsoye, S.I. Talabi, O.S. Sanni
πŸ“– Journal: Journal of Minerals and Materials Characterization and Engineering 11 (8) (2012)
πŸ“Š Citations: 173

Effect of Welding Variables on Mechanical Properties of Low Carbon Steel Welded Joint πŸ”₯πŸ”©
πŸ‘¨β€πŸ« Authors: S.I. Talabi, O.B. Owolabi, J.A. Adebisi, T. Yahaya
πŸ“– Journal: Production Engineering Institute (PEI), Faculty of Mechanical Engineering (2014)
πŸ“Š Citations: 135

Effect of Mercerization on the Mechanical and Thermal Response of Hybrid Bagasse Fiber/CaCO₃ Reinforced Polypropylene Composites πŸŒ±πŸ—οΈ
πŸ‘¨β€πŸ« Authors: I.O. Oladele, I.O. Ibrahim, A.D. Akinwekomi, S.I. Talabi
πŸ“– Journal: Polymer Testing 76, 192-198 (2019)
πŸ“Š Citations: 72

Effects of Palm Kernel Shell on the Microstructure and Mechanical Properties of Recycled Polyethylene/Palm Kernel Shell Particulate Composites πŸŒ΄βš™οΈ
πŸ‘¨β€πŸ« Authors: J.O. Agunsoye, S.I. Talabi, A.A. Obe, I.O. Adamson
πŸ“– Journal: Journal of Minerals and Materials Characterization and Engineering 11 (8), 825 (2012)
πŸ“Š Citations: 53

The Effects of Cocos Nucifera (Coconut Shell) on the Mechanical and Tribological Properties of Recycled Waste Aluminium Can Composites πŸ₯₯πŸ”©
πŸ‘¨β€πŸ« Authors: J.O. Agunsoye, S.I. Talabi, S.A. Bello, I.O. Awe
πŸ“– Journal: Tribology in Industry 36 (2), 155-162 (2014)
πŸ“Š Citations: 49

Mechanical Properties and Tribological Behaviour of Recycled Polyethylene/Cow Bone Particulate Composite πŸ¦΄πŸ”¬
πŸ‘¨β€πŸ« Authors: J.O. Agunsoye, S.I. Talabi, O. Awe, H. Kelechi
πŸ“– Journal: Journal of Materials Science Research 2 (2), 41 (2013)
πŸ“Š Citations: 38

These publications highlight Prof. Talabi’s expertise in polymer composites, tribology, and materials engineering, making significant contributions to sustainable materials and advanced manufacturing πŸš€.