Assoc. Prof. Dr Li Zheng | Materials for Energy Applications | Best Researcher Award

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Assoc. Prof. Dr Li Zheng | Materials for Energy Applications | Best Researcher Award

Assoc. Prof. Dr. Li Zheng is a distinguished researcher specializing in circuits & systems and microelectronics ⚑. With a strong foundation in semiconductor technology, he has led multiple research projects focusing on integrated circuit design, advanced materials, and energy-efficient electronics 🏭. His contributions include 7 first-author papers, a technical monograph, and multiple patents πŸ…. He has secured over CNY 1 million in research funding, demonstrating his ability to bridge fundamental science and real-world applications πŸ”¬. His work is shaping the future of high-performance semiconductor devices, making him a strong contender for the Best Researcher Award πŸ†.

Assoc. Prof. Dr Li Zheng, Huangshan University, China

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πŸš€ LeadershipΒ 

Assoc. Prof. Dr. Li Zheng has demonstrated exceptional research leadership in the fields of circuits & systems and microelectronics ⚑. As a Principal Investigator, he has secured over 10 competitive research grants, including a provincial-level project, a key project from the Anhui Provincial Department of Education, and multiple industry-academia collaborations 🏭. His ability to attract over CNY 1 million in research funding πŸ’° highlights his expertise in bridging academic research with industrial applications. His leadership in advanced semiconductor research continues to drive technological advancements and innovation in integrated circuit design πŸ†.

Intellectual Property πŸ”¬

Assoc. Prof. Dr. Li Zheng has made significant contributions to circuits & systems and microelectronics through his extensive publications and intellectual property πŸ“–. He has authored 7 first-author/corresponding-author papers, including 1 SCI-indexed journal article and 2 EI Compendex conference papers πŸ“. His expertise is further demonstrated by his technical monograph, contributing to advancements in semiconductor technology ⚑. Additionally, he holds 2 granted international invention patents, 1 national invention patent, and 3 utility model patents πŸ…. His research excellence and technological innovations are shaping the future of integrated circuit design and advanced materials πŸš€.

πŸ’» SoftwareΒ 

Assoc. Prof. Dr. Li Zheng has made remarkable contributions to software innovation in circuits & systems and microelectronics ⚑. His expertise extends beyond hardware, as evidenced by his 3 registered computer software copyrights πŸ…. These innovations enhance integrated circuit design, semiconductor device optimization, and electronic system efficiency πŸ’‘. His ability to develop cutting-edge software solutions strengthens his impact in both academic research and industry applications 🏭. By bridging advanced materials, circuit design, and computational tools, his work continues to drive technological advancements and position him as a leader in microelectronics research πŸš€.

🎯 Research Focus 

Assoc. Prof. Dr. Li Zheng specializes in circuits & systems and microelectronics, focusing on advanced materials for integrated circuit design ⚑. His research aims to enhance device performance, energy efficiency, and semiconductor reliability 🏭. By integrating cutting-edge materials with next-generation electronic systems, his work contributes to the development of high-speed, low-power, and scalable circuit solutions πŸ’‘. His expertise bridges fundamental material science and practical applications, ensuring technological advancements in modern electronics πŸš€. His pioneering research continues to shape the future of semiconductor innovation and microelectronic engineering πŸ†.

πŸ“„ PublicationΒ 

πŸ”Ή Title: Circuit Response and Experimental Verification of High Energy Storage Density Materials
πŸ”Ή Authors: Li Zheng, Kang Fu, Yuwan Cheng, Kaijie Hong, Guo Zhang
πŸ”Ή Journal: Scientific Reports πŸ“°
πŸ”Ή Publication Year: 2025

This open-access study explores the circuit response of high energy storage density materials, providing experimental verification for their application in advanced electronics ⚑. The research enhances energy-efficient circuit design, contributing to next-generation microelectronics and integrated systems πŸš€.

Dr SHENGYUAN FAN | Rock mechanics | Best Researcher Award

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Dr SHENGYUAN FAN | Rock Mechanics | Best Researcher Award

Dr. Shengyuan Fan is an esteemed researcher specializing in rock mechanics, tunnel engineering, and underground structural analysis β›οΈπŸ—οΈ. He holds a Ph.D. and is currently affiliated with Xi’an University of Architecture and Technology πŸ›οΈ. His research focuses on tunnel deformation, stress responses, and rock material damage, contributing to safer and more resilient underground infrastructures. With numerous publications in high-impact journals, his work is widely recognized in geotechnical engineering 🌍. He actively collaborates with international researchers and presents at leading conferences, making significant contributions to civil and underground engineering πŸš§πŸ“š.

Dr SHENGYUAN FAN, China Railway 20th Bureau Group Co., Ltd, China

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Education πŸŽ“πŸ“–

Dr. Shengyuan Fan holds a Ph.D. in Civil Engineering, specializing in rock mechanics, tunnel engineering, and underground structural analysis β›οΈπŸ—οΈ. His academic journey has equipped him with expertise in geotechnical engineering, stress analysis, and material degradation under extreme conditions. His research focuses on tunnel deformation, rock stress responses, and structural integrity in underground environments πŸŒπŸ”¬. Throughout his doctoral studies, he contributed to high-impact publications and participated in international academic collaborations, reinforcing his standing as a leading researcher in underground construction and geological engineering πŸ“šπŸ”.

Achievements πŸ“š

Dr. Shengyuan Fan has made significant contributions to rock mechanics and tunnel engineering through his high-impact research published in leading scientific journals πŸ†πŸ“–. His work includes investigations on microstructure damage in limestone under high-pressure water, tunnel deformation mechanisms, and stress response in underground structures πŸ’§πŸ”. His studies in Geoenergy Science and Engineering, Construction and Building Materials, and Archives of Civil and Mechanical Engineering have advanced underground construction safety, water seepage effects, and large deformation mechanisms in tunnels. His research continues to shape geotechnical engineering and structural stability in extreme environments πŸŒπŸ”¬.

Research Focus πŸ”¬β›οΈ

Dr. Shengyuan Fan’s research focuses on rock mechanics, tunnel engineering, and underground structural analysis πŸ—οΈπŸŒ. His work explores the stress response, deformation mechanisms, and microstructural damage in rock formations under extreme conditions. He specializes in tunnel stability, water seepage effects in porous rocks, and underground construction safety πŸ”πŸ’§. His studies contribute to the development of resilient and durable underground infrastructures, improving the reliability of tunnels, mining operations, and geotechnical structures. Through advanced numerical modeling and experimental testing, Dr. Fan continues to innovate in geological engineering and underground space utilization πŸ“ŠπŸ›οΈ.

Academic Exchanges πŸŒπŸ“’

Dr. Shengyuan Fan has actively participated in prestigious international and national conferences related to rock mechanics, tunnel engineering, and underground construction β›οΈπŸ—οΈ. He has presented his research findings at key forums, including the 2019 China-Russia High-Level Forum on Rock Dynamics, the 16th Chinese Conference on Rock Mechanics and Engineering, and the 3rd International Symposium on Tunnel and Underground Engineering Testing and Monitoring πŸ“ŠπŸŽ€. His contributions to geotechnical engineering have been recognized at events hosted by leading institutions such as China University of Mining and Technology, Central South University, and Xi’an University of Architecture and Technology πŸ›οΈπŸ”.

PublicationsΒ  πŸ“‘

Investigation of the Microstructure Damage and Mechanical Properties Evolution of Limestone Subjected to High-Pressure Water
πŸ–ŠοΈ Authors: Fan Shengyuan, Song Zhanping, Xu Tian, Zhang Yuwei
πŸ“œ Journal: Construction and Building Materials, 2022, 316: 125871

Influence of the Combined Action of Water and Axial Pressure on the Microscopic Damage and Mechanical Properties of Limestone
πŸ–ŠοΈ Authors: Fan Shengyuan, Song Zhanping, Wang Huaizheng, Zhang Yuwei, Zhang Qiang
πŸ“œ Journal: Geoenergy Science and Engineering, 2023, 228: 212027

Tunnel Deformation and Stress Response Under the Bilateral Foundation Pit Construction – A Case Study
πŸ–ŠοΈ Authors: Fan Shengyuan, Song Zhanping, Xu Tian, Wang Kaimeng, Zhang Yuwei
πŸ“œ Journal: Archives of Civil and Mechanical Engineering, 2021, 21(3): 109

Theoretical Analysis and Verification of the Influence of Bubble, Pore Throat, and Water Film on Pore Water Seepage Characteristics – Taking Sandstone as the Research Object
πŸ–ŠοΈ Authors: Fan Shengyuan, Song Zhanping, Li Xu, Tian Xiaoxu, Liu Lianbaichao, Li Kanglin
πŸ“œ Journal: Archives of Civil and Mechanical Engineering, 2023, 23(4): 225

Investigation into the Large Deformation Mechanism and Control Technology of Variable Cross-Section Tunnel in Layered Mudstone Stratum
πŸ–ŠοΈ Authors: Fan Shengyuan, Song Zhanping, Li Xu, Zhang Yuwei, Lianbaichao Liu
πŸ“œ Journal: Buildings, 2023, 13(1): 110

Case Study of the Effect of Rainfall Infiltration on a Tunnel Underlying the Roadbed Slope with Weak Inter-Layer
πŸ–ŠοΈ Authors: Fan Shengyuan, Song Zhanping, Zhang Yuwei, Liu Naifei
πŸ“œ Journal: KSCE Journal of Civil Engineering, 2020, 24(50): 1607-1619

Dr. Fan’s research explores rock mechanics, tunnel stability, and geotechnical engineering, contributing to structural resilience and underground safety πŸš‡πŸ—οΈ.

Dr Kotb Al Bassioni | Electrical Properties of Materials | Excellence in Research Award

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Dr Kotb Al Bassioni | Electrical Properties of Materials | Excellence in Research Award

Dr. Kotb Al Bassioni is an expert in electrical engineering, power electronics, and renewable energy systems βš™οΈπŸ”‹. He earned his Ph.D. in Electrical Engineering from Ghent University, Belgium (2022), specializing in synchronous reluctance machines and multiphase drive systems. Currently a Research Scientist at Khalifa University, UAE, he has also held postdoctoral roles at Ghent University. His research focuses on matrix converters, motor control, and sustainable energy integration. With high-impact publications, industry collaborations, and multiple research grants, he is advancing energy-efficient electrical machines and smart grid technologies, making significant contributions to green energy solutions πŸŒπŸš€.

Dr Kotb Al Bassioni, Khalifa University, United Arab Emirates

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Education πŸŽ“

Dr. Kotb Al Bassioni holds a Ph.D. in Electrical Engineering from Ghent University, Belgium (2022), where he specialized in refurbishing three-phase synchronous reluctance machines for improved five-phase drive systems βš™οΈπŸ”¬. He earned his M.Sc. in Electrical Engineering from Menoufia University, Egypt (2016), focusing on performance improvement of matrix converters in wind energy systems πŸŒ¬οΈπŸ”‹. His academic journey began with a B.Sc. in Electrical Engineering from Menoufia University (2013), where he graduated first in his faculty and department with honors (90.67%) πŸ†πŸ“š. His strong educational background drives his cutting-edge research in power electronics and renewable energy πŸš€.

Experience 🏫

Dr. Kotb Al Bassioni has extensive experience in academic research, industry collaborations, and teaching in electrical engineering, power electronics, and renewable energy. As a Technical Leader and Senior Researcher, he has led industry projects with Ghent University, Magnax, Punch Powertrain, and SEW Germany, focusing on electromagnetic modeling, machine reliability, and wind energy βš™οΈπŸ”¬. He has supervised Ph.D. and Master’s students in electric drives, photovoltaic systems, and renewable energy applications πŸŒπŸ”‹. His teaching expertise spans Power Electronics, Electrical Drives, Energy Conversion, Electric Vehicles, and Digital Electronics, shaping the next generation of engineers through theoretical and hands-on training πŸš€πŸ“š.

Academic Ranks πŸ“š

Dr. Kotb Al Bassioni has held prestigious academic positions across leading universities in Belgium, the UAE, and Egypt. Currently, he is a Research Scientist at Khalifa University, UAE (2024–present), following his role as a Postdoctoral Researcher (2022–2024) at Ghent University and Khalifa University, specializing in electrical machines and power electronics βš™οΈπŸ”¬. He also serves as an Assistant Professor (on leave) at Menoufia University, Egypt (2023–present). His academic journey includes roles as a Ph.D. Researcher (2019–2022), Assistant Lecturer (2016–2019), and Teaching Assistant (2013–2016), contributing to cutting-edge research and education in electrical engineering πŸ“šπŸš€.

Research Focus πŸ”¬

Dr. Kotb Al Bassioni specializes in power electronics, multiphase electrical machines, and renewable energy systems βš™οΈπŸ”‹. His research focuses on synchronous reluctance machines, developing cost-effective refurbishing methods to enhance their efficiency and reliability. He has contributed significantly to matrix converters, five-phase motor control, and power loss reduction in electric drives. His work also explores wind energy conversion systems, optimizing power electronics interfaces for improved energy efficiency πŸŒπŸ’‘. With a strong emphasis on motor design, electromagnetic modeling, and renewable energy integration, his research is advancing sustainable and high-performance electrical systems πŸš€πŸ”„.

Publications πŸ“š

“Wind Energy Conversion System Topologies and Converters: Comparative Review”
Authors: K.B. Tawfiq, A.S. Mansour, H.S. Ramadan, M. Becherif, E.E. El-Kholy
Journal: Energy Procedia (2019) πŸŒπŸ”‹

“Performance Improvement of Synchronous Reluctance Machinesβ€”A Review Research”
Authors: K.B. Tawfiq, M.N. Ibrahim, E.E. El-Kholy, P. Sergeant
Journal: IEEE Transactions on Magnetics (2021) βš™οΈπŸ”„

“An Enhanced Fault-Tolerant Control of a Five-Phase Synchronous Reluctance Motor Fed from a Three-to-Five-Phase Matrix Converter”
Authors: K.B. Tawfiq, M.N. Ibrahim, P. Sergeant
Journal: IEEE Journal of Emerging and Selected Topics in Power Electronics (2022) πŸ”ŒπŸ”¬

“Performance Improvement of Existing Three-Phase Synchronous Reluctance Machine: Stator Upgrading to 5-Phase with Combined Star-Pentagon Winding”
Authors: K.B. Tawfiq, M. Nabil, E. El-Kholy, P. Sergeant
Journal: IEEE Access (2020) ⚑🏭

“Bearing Current and Shaft Voltage in Electrical Machines: A Comprehensive Research Review”
Authors: K.B. Tawfiq, M. Güleç, P. Sergeant
Journal: Machines (2023) βš™οΈπŸ”

“Wind Energy Conversion Systems Based on a Synchronous Generator: Comparative Review of Control Methods and Performance”
Authors: A. Raouf, K.B. Tawfiq, E.T. Eldin, H. Youssef, E.E. El-Kholy
Journal: Energies (2023) 🌱⚑

“Construction of Synchronous Reluctance Machines with Combined Star-Pentagon Configuration Using Standard Three-Phase Stator Frames”
Authors: K.B. Tawfiq, M.N. Ibrahim, E.E. El-Kholy, P. Sergeant
Journal: IEEE Transactions on Industrial Electronics (2021) πŸ”„πŸ“‘

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

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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€.

Dr Giulia Bastianello | Mechanical Properties of Materials | Best Researcher Award

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Dr Giulia Bastianello | Mechanical Properties of Materials | Best Researcher Award

Dr. Giulia Bastianello is an accomplished molecular oncology researcher specializing in DNA damage response and mechanobiology 🧬. She earned her Ph.D. from IFOM, Milan (2017) πŸŽ“, following a Master’s in Molecular Biology (2012) and a Bachelor’s in Biology (2010) from the University of Milan. Currently a Research Fellow at IFOM πŸ”, she explores how mechanical stress impacts genome stability, with a focus on the ATM kinase pathway. Recognized with the NAF2020 Young Investigator Award πŸ†, she has published in Nature Communications, Cell Reports, and PNAS πŸ“–. Her pioneering work advances cancer research and cellular resilience πŸ”¬.

Dr Giulia Bastianello, IFOM-ETS, Italy

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Education πŸŽ“

Dr. Giulia Bastianello holds a Ph.D. in Molecular Oncology from IFOM (the FIRC Institute of Molecular Oncology) in Milan, Italy (2017), where she conducted groundbreaking research under the supervision of Prof. Marco Foiani. Prior to that, she completed her Master’s degree in Molecular Biology (2012) and her Bachelor’s degree in Biology (2010), both from the University of Milan, achieving summa cum laude honors. Her academic journey has been marked by a deep commitment to understanding cellular mechanisms and DNA damage responses.

Experience πŸ”¬

Dr. Bastianello has been a Research Fellow at IFOM since 2017, where she investigates the intricate relationship between DNA damage response and mechanical stress, focusing on the ATM kinase. Her research experience also includes roles as a doctoral student at IFOM and multiple thesis projects related to gene recombination and replication stress responses. Through these roles, she has honed her expertise in molecular biology, cell mechanics, and cancer biology.

Research Focus 🧬

Dr. Bastianello’s research explores the intersection of mechanobiology and genomic stability. She focuses on how mechanical stress influences the DNA damage response, with particular attention to the ATM kinase pathway. Her work has critical implications for understanding cancer progression, cellular resilience, and potential therapeutic targets. She employs advanced methodologies, including CRISPR knockout, fluorescence microscopy, and mechanobiology assays, to uncover novel insights into cell behavior under stress conditions.

Awards & Recognition πŸ†

Dr. Bastianello has received the prestigious NAF2020 Young Investigator Award for her research on Ataxia-Telangiectasia and cytoskeletal stress. She has also secured multiple research fellowships at the University of Milan, highlighting her contributions to oncology and molecular biology. Her work is widely recognized in the scientific community, and she actively participates in leading international conferences.

πŸ“„ Publications

A Multiparametric Screen Uncovers FDA-Approved Small Molecules That Potentiate the Nuclear Mechano-Dysfunctions in ATR-Defective Cells πŸ§¬πŸ”
πŸ‘¨β€πŸ« Authors: Cera MR, Bastianello G, Purushothaman D, Andronache A, Ascione F, Robusto M, FagΓ  G, Pasi M, Meroni G, Li Q et al.
πŸ“– Journal: Scientific Reports πŸ›οΈ
πŸ“… Publication Date: 2024-12-28

Mechanical Stress During Confined Migration Causes Aberrant Mitoses and c-MYC Amplification πŸ”¬βš‘
πŸ‘¨β€πŸ« Authors: Bastianello G, Kidiyoor GR, Lowndes C, Li Q, Bonnal R, Godwin J, Iannelli F, Drufuca L, Bason R, Orsenigo F et al.
πŸ“– Journal: Proceedings of the National Academy of Sciences (PNAS) πŸ›οΈ

Germinal Center Dark Zone Harbors ATR-Dependent Determinants of T-Cell Exclusion That Are Also Identified in Aggressive Lymphoma πŸ₯🦠
πŸ‘¨β€πŸ« Authors: Tripodo C, Cancila V, Morello G, Bertolazzi G, Chan ASY, Bastianello G, Paysan D, Jaynes PW, Schiavoni G, Mattei F et al.
πŸ“– Journal: Preprint
πŸ“… Publication Date: 2024-03-18

Cell Stretching Activates an ATM Mechano-Transduction Pathway That Remodels Cytoskeleton and Chromatin πŸ”—πŸ”¬
πŸ‘¨β€πŸ« Authors: Bastianello G, Porcella G, Beznoussenko GV, Kidiyoor G, Ascione F, Li Q, Cattaneo A, Matafora V, Disanza A, Quarto M et al.
πŸ“– Journal: Cell Reports πŸ›οΈ
πŸ“… Publication Date: 2023-12

Mechanisms Controlling the Mechanical Properties of the Nuclei πŸ§ͺπŸ“Š
πŸ‘¨β€πŸ« Authors: Bastianello G, Foiani M
πŸ“– Journal: Current Opinion in Cell Biology πŸ›οΈ
πŸ“… Publication Date: 2023-10

Cancer Cell Histone Density Links Global Histone Acetylation, Mitochondrial Proteome, and Histone Acetylase Inhibitor Sensitivity πŸ₯🧬
πŸ‘¨β€πŸ« Authors: Bastianello G
πŸ“– Journal: Communications Biology πŸ›οΈ
πŸ“… Publication Date: 2022-08-27

Prof. Giulia Bastianello’s cutting-edge research in molecular oncology, DNA damage response, and nuclear mechanics has made significant contributions to cancer biology and biomedical sciences. Her work continues to shape the future of oncology, cell mechanics, and therapeutic advancements.

Assist. Prof. Dr Ravishankar Ambi | Gas sensing | Young Scientist Award

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Assist. Prof. Dr Ravishankar Ambi | Gas sensing | Young Scientist Award

Assist. Prof. Dr. Ravishankar Ambi is a rising researcher in material science and nanotechnology πŸ”. He earned his Ph.D. in Physics from Shivaji University, Kolhapur (2024) πŸŽ“ and is currently an Assistant Professor at Jaysingpur College πŸ›οΈ. His research focuses on thin-film-based gas sensors, energy storage devices, and nanomaterials ⚑. His NiO-based NOβ‚‚ sensor technology has advanced environmental monitoring and energy efficiency 🌱. With high-impact publications, research grants, and a prestigious MAHAJYOTI fellowship, his innovative contributions to sensor technology and energy materials make him a strong candidate for the Young Scientist Award πŸ†.

Assist. Prof. Dr Ravishankar Ambi, Jaysingpur College, Jaysingpur, India

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πŸŽ“ Education

Dr. R. R. Ambi earned his Ph.D. in Physics from Shivaji University, Kolhapur (2024) πŸŽ“ and currently serves as an Assistant Professor at Jaysingpur College, Jaysingpur πŸ›οΈ. He was awarded the MJSRF-2021 Senior Research Fellowship by MAHAJYOTI, Nagpur, recognizing his research excellence πŸ†. He completed his M.Sc. in Physics from Shivaji University (2018). His research focuses on the synthesis of binary, ternary, and composite nanocrystalline metal oxide thin films πŸ§ͺ, with applications in solar cells, gas sensors, and supercapacitors ⚑. His work contributes to sustainable energy and advanced sensor technologies 🌱.

πŸ‘¨β€πŸ« Experience

Dr. R. R. Ambi is an Assistant Professor in the Department of Physics at Jaysingpur College, Jaysingpur πŸ›οΈ. He earned his Ph.D. in Physics from Shivaji University, Kolhapur (2024) πŸŽ“ and was awarded the prestigious MJSRF-2021 Senior Research Fellowship by MAHAJYOTI, Nagpur πŸ†. His expertise lies in the synthesis of binary, ternary, and composite nanocrystalline metal oxide thin films πŸ§ͺ, with applications in solar cells, gas sensors, and supercapacitors ⚑. With a strong academic foundation and a passion for innovation, his work contributes to sustainable energy solutions and advanced material science 🌱.

πŸš€ Research Contributions

Dr. R. R. Ambi has made significant advancements in NOβ‚‚ gas sensor technology πŸ”¬. His research on NiO thin films has led to highly sensitive, cost-effective, and efficient NOβ‚‚ sensors πŸ”. The porous hierarchical architecture and superior reactivity of these films enhance NOβ‚‚ adsorption and electron transfer, enabling detection at a low operating temperature of 200Β°C 🌑️. This breakthrough offers a low-cost solution for environmental monitoring 🌍. However, further improvements in response time, long-term stability, and selectivity are needed to fully integrate these sensors into real-world applications for sustainable air quality monitoring ⚑.

πŸ”¬ Research FocusΒ 

Dr. R. R. Ambi’s research specializes in material science, thin-film-based gas sensor technology, and energy conversion and storage devices ⚑. His work focuses on developing advanced nanocrystalline metal oxide thin films πŸ§ͺ for applications in solar cells, gas sensors, and supercapacitors πŸ”‹. He is particularly interested in enhancing sensor sensitivity and efficiency for environmental monitoring 🌍 and optimizing energy storage solutions for sustainable technologies 🌱. His expertise in nanomaterials and thin-film synthesis contributes to cutting-edge advancements in energy-efficient devices and next-generation sensor technology πŸ”, making a significant impact in renewable energy and material engineering.

πŸ“„ Publications

Highly Porous Hierarchical NiO Coated ZnO pn Heterostructure for NOβ‚‚ Detection πŸŒ«οΈπŸ”
πŸ‘¨β€πŸ« Authors: RR Ambi, AA Mane, VB Patil, RD Mane
πŸ“– Journal: Materials Science and Engineering: B πŸ›οΈ
πŸ“Š Citations: 11 (2024)

Highly Porous NiO Microstructure for NOβ‚‚ Detection πŸ§ͺ⚑
πŸ‘¨β€πŸ« Authors: RR Ambi, AA Mane, RD Tasgaonkar, RD Mane
πŸ“– Journal: Physica B: Condensed Matter πŸ›οΈ
πŸ“Š Citations: 7 (2024)

NOβ‚‚ Sensing Properties of Chemically Deposited Vertically Aligned Flowerlike Hexagonal ZnO Nanorods 🌿🌑️
πŸ‘¨β€πŸ« Authors: RR Ambi, MG Mulla, RK Pittala
πŸ“– Journal: Sensors and Actuators A: Physical πŸ›οΈ
πŸ“Š Citations: 2 (2024)

NiO Nanosheet-Assembled Chemiresistive Sensor for NOβ‚‚ Detection πŸ—οΈπŸ”¬
πŸ‘¨β€πŸ« Authors: RR Ambi, RA Mali, AB Pawar, MM Mulla, RK Pittala
πŸ“– Journal: Applied Physics A πŸ›οΈ
πŸ“Š Publication Year: 2025

Dr. Ambi’s cutting-edge research in NOβ‚‚ gas sensing technology contributes to environmental monitoring and air quality control 🌍. His highly porous and hierarchical nanostructures enhance sensitivity, selectivity, and performance in gas detection applications ⚑.

Prof Hyun Kyoung Yang | Materials Engineering | Best Researcher Award

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Prof Hyun Kyoung Yang | Materials Engineering | Best Researcher Award

Prof. Hyun Kyoung Yang is a renowned researcher in composite materials, LED technology, and nanomaterials ⚑. He earned his Ph.D. in Physics from Pukyong National University (2010) πŸŽ“ and currently serves as a Professor at the Department of Electrical, Electronics, and Software Engineering πŸ›οΈ. His groundbreaking research in phosphors for LEDs, heat-sink materials, and optoelectronic coatings has significantly enhanced lighting efficiency and durability πŸ’‘. With numerous high-impact publications, research grants, and collaborations, his contributions to nanotechnology and material science πŸ” have been widely recognized. His leadership and innovations make him a highly deserving candidate for the Best Researcher Award πŸ….

Prof Hyun Kyoung Yang, Pukyong National University, South Korea

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πŸŽ“ Education

Prof. Hyun Kyoung Yang earned his Ph.D. in Physics from Pukyong National University πŸ›οΈ in February 2010, specializing in nanomaterials and optoelectronics πŸ”¬. His doctoral research focused on advanced phosphor materials for LED applications, contributing to energy-efficient lighting technologies πŸ’‘. During his Ph.D. studies, he mastered various synthesis techniques, including solid-state reactions, solvothermal processing, and pulsed laser deposition, enhancing the performance and durability of LED phosphors ⚑. His strong academic foundation and expertise in material science and photonics have paved the way for groundbreaking innovations in LED and composite materials πŸš€.

πŸ‘¨β€πŸ« ExperienceΒ 

Prof. Hyun Kyoung Yang is a distinguished academic leader and researcher in composite materials, LED technology, and nanomaterials ⚑. Currently, he serves as the Director of the Liberal Arts Education and Vice Director of External Affairs at Pukyong National University (2024–Present) πŸ›οΈ. Since 2019, he has been a Professor in the Department of Electrical, Electronics, and Software Engineering πŸŽ“. Previously, he was a Professor in LED Convergence Engineering (2014–2019) and a Senior Researcher at the Korea Institute of Energy Research (2012–2014) πŸ”. His expertise in material science and energy-efficient technologies continues to drive groundbreaking innovations πŸš€.

πŸ”¬ Research Focus

Prof. Hyun Kyoung Yang is a leading researcher in composite materials, LED technology, and nanomaterials ⚑. His research focuses on developing high-performance materials for LED applications, heat-sink systems, and foaming materials πŸ”₯. He specializes in phosphors, phosphors in glass (PIG), and thermal interface materials, enhancing LED lighting efficiency and durability πŸ’‘. His expertise includes the preparation and characterization of nanomaterials, carbon dots, thin films, and ceramic phosphors using advanced synthesis methods, such as solid-state reactions, high-energy ball milling, solvothermal processing, pulsed laser deposition, and RF-DC sputtering πŸ—οΈ. His work drives innovation in optoelectronics and energy-efficient lighting systems πŸš€.

πŸ“„ PublicationsΒ 

Color Tunable Carbon Quantum Dots from Wasted Paper by Different Solvents for Anti-Counterfeiting and Fluorescent Flexible Film πŸ·οΈπŸ’‘
πŸ‘¨β€πŸ« Authors: SJ Park, JY Park, JW Chung, HK Yang, BK Moon, SS Yi
πŸ“– Journal: Chemical Engineering Journal πŸ›οΈ
πŸ“Š Citations: 149 (2020)

Photoluminescence Properties of CeOβ‚‚:Eu³⁺ Nanoparticles Synthesized by a Sol-Gel Method πŸŒŸπŸ”¬
πŸ‘¨β€πŸ« Authors: L Li, HK Yang, BK Moon, Z Fu, C Guo, JH Jeong, SS Yi, K Jang, HS Lee
πŸ“– Journal: The Journal of Physical Chemistry C πŸ›οΈ
πŸ“Š Citations: 145 (2009)

Preparation and Luminescent Properties of Phosphor MGdβ‚‚(MoOβ‚„)β‚„:Eu³⁺ (M= Ca, Sr, and Ba) βœ¨πŸ”
πŸ‘¨β€πŸ« Authors: C Guo, HK Yang, JH Jeong
πŸ“– Journal: Journal of Luminescence πŸ›οΈ
πŸ“Š Citations: 140 (2010)

Characterization and Photoluminescent Enhancement of Li⁺ Corporation Effect on CaWOβ‚„:Eu³⁺ Phosphor πŸ”†βš‘
πŸ‘¨β€πŸ« Authors: Y Chen, HK Yang, SW Park, BK Moon, BC Choi, JH Jeong, KH Kim
πŸ“– Journal: Journal of Alloys and Compounds πŸ›οΈ
πŸ“Š Citations: 127 (2012)

Ultraviolet to Blue Blocking and Wavelength Convertible Films Using Carbon Dots for Interrupting Eye Damage Caused by General Lighting πŸ‘€πŸ’‘
πŸ‘¨β€πŸ« Authors: SJ Park, HK Yang, BK Moon
πŸ“– Journal: Nano Energy πŸ›οΈ
πŸ“Š Citations: 98 (2019)

Crystal Structure, Electronic Structure, and Optical and Photoluminescence Properties of Eu(III) Ion-Doped Lu₆Mo(W)O₁₂ πŸ—οΈπŸŒŸ
πŸ‘¨β€πŸ« Authors: H Li, HK Yang, BK Moon, BC Choi, JH Jeong, K Jang, HS Lee, SS Yi
πŸ“– Journal: Inorganic Chemistry πŸ›οΈ
πŸ“Š Citations: 94 (2011)

Prof. Hyun Kyoung Yang’s pioneering research in phosphors, nanomaterials, and LED applications has significantly advanced photonic and optoelectronic technologies πŸš€. His highly cited publications underscore his global impact on material science and energy-efficient lighting systems πŸ”¬πŸ’‘.

Prof Marco Foiani | Mechanobiology | Best Researcher Award

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Prof Marco Foiani | Mechanobiology | Best Researcher Award

Prof. Marco Foiani is an eminent molecular biologist and genome integrity researcher 🧬. He is currently the Director of the Istituto di Genetica Molecolare (IGM), CNR, Pavia πŸ›οΈ and a Professor of Molecular Biology at the University of Milan πŸŽ“. With a career spanning decades, he has made groundbreaking contributions to genome integrity, DNA repair mechanisms, and chromatin dynamics πŸ§ͺ. He has held prestigious roles, including Scientific Director at IFOM (2009–2022) and a Senior Investigator at the Cancer Science Institute of Singapore (2023–2024). His research has influenced oncology, mechanobiology, and cellular metabolism, making him a global leader in cancer biology and genomic research πŸ”¬.

Prof Marco Foiani, CNR-IFOM, Italy

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πŸŽ“ Education

Prof. Foiani completed his Degree in Biological Sciences from the University of Milan (1985) and later obtained a Ph.D. in Molecular and Cell Biology (1988) 🧬. His doctoral research was conducted under Prof. Paolo Plevani, focusing on DNA replication and repair. He further honed his expertise as a “Buzzati Traverso” Postdoctoral Fellow (1988–1989) at the University of Milan and later as a “Fogarty” Postdoctoral Fellow at NIH-NICHD, Bethesda, USA (1989–1991), working under Dr. Alan Hinnebush πŸ›οΈ. These formative years solidified his expertise in molecular genetics and genome integrity research.

πŸ‘¨β€πŸ« ExperienceΒ 

Prof. Foiani has held key academic positions throughout his career. He started as an Assistant Professor of Microbiology at the University of Milan (1990–1993) and later became an Adjunct Professor of Molecular Genetics at the University of Varese (1994–1995). By 2001, he had achieved the rank of Full Professor of Molecular Biology at the University of Milan πŸŽ“. Additionally, he has served as:
πŸ”Ή Scientific Director at IFOM (2009–2022) πŸ›οΈ
πŸ”Ή Visiting Professor at the University of Tokyo (2021–2023) πŸ‡―πŸ‡΅
πŸ”Ή Professor at the National University of Singapore (2023–2024) πŸ‡ΈπŸ‡¬
πŸ”Ή Senior Investigator at Cancer Science Institute, Singapore (2023–2024) πŸ§ͺ

Beyond academia, he has played a crucial role in international research collaborations, leading major cancer research programs and directing genome integrity research labs worldwide 🌍.

πŸ”¬ Research Interests

Prof. Foiani’s research focuses on chromosome dynamics, genome integrity, and DNA damage response 🧬. His key areas of study include:
βœ” DNA replication, transcription, and repair πŸ§ͺ
βœ” Chromatin remodeling and nuclear architecture πŸ”¬
βœ” Cell metabolism and its impact on genome stability ⚑
βœ” ATM/ATR-mediated mechanotransduction pathways πŸ—οΈ

His work has advanced our understanding of DNA damage response mechanisms, leading to potential breakthroughs in cancer treatment and personalized medicine πŸ₯.

πŸ† Awards & Recognitions

Prof. Foiani has received numerous prestigious awards for his contributions to molecular biology and genome research, including:
πŸ… Biotech Award (AMGEN, 2001)
πŸ… Chiara D’Onofrio Award (2004)
πŸ… Elected Member of EMBO (2004)
πŸ… Elected Member of the Academia Europea (2010)
πŸ… ERC Investigator Grant Award (2023)

His recognition as a leading scientist in genome stability and cancer research has earned him global invitations for keynote lectures at prestigious institutions like Harvard, Columbia, and Kyoto University 🎀.

πŸ“– Research Publications & Impact

Prof. Foiani has published over 100 peer-reviewed research articles, many in high-impact journals like Nature, Science, and Cell πŸ›οΈ. His seminal contributions to genome stability, ATR/ATM pathways, and chromatin dynamics have had far-reaching implications in cancer research and DNA repair mechanisms 🧬.

Publication Top Notes

Cell stretching activates an ATM mechano-transduction pathway that remodels cytoskeleton and chromatin

Mechanisms controlling the mechanical properties of the nuclei

Sen1 and Rrm3 ensure permissive topological conditions for replication termination

Endogenous PP2A inhibitor CIP2A degradation by chaperone-mediated autophagy contributes to the antitumor effect of mitochondrial complex I inhibition

Tissue fluidification promotes a cGAS–STING cytosolic DNA response in invasive breast cancer

 

Prof Jia Lin | Composite Materials | Best Researcher Award

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Prof Jia Lin | Composite Materials | Best Researcher Award

Prof. Jia Lin is a leading expert in materials science and engineering, specializing in ceramic matrix composites, 3D printing of ceramics, and ultrahigh-temperature materials βš™οΈπŸ”₯. She earned her Ph.D. in Materials Science and Engineering from Harbin Institute of Technology and has held research positions at Xiamen University of Technology and the University of Bristol, UK 🌍. Her research focuses on CNT-reinforced ceramics, polymer-derived ceramics, and advanced manufacturing techniques πŸ—οΈ. With high-impact publications, national research grants, and patented innovations, she is driving breakthroughs in ceramic engineering and additive manufacturing πŸš€.

Prof Jia Lin, Xiamen University of Technology, China

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Education πŸŽ“

Prof. Jia Lin has an extensive academic background in materials science and engineering. She earned her Ph.D. in Materials Science and Engineering from Harbin Institute of Technology (2013) πŸ—οΈ, following a Master’s degree from Fuzhou University (2010) and a Bachelor’s degree from Harbin Institute of Technology (2007) βš™οΈ. She has held academic positions at Xiamen University of Technology, progressing from Lecturer (2013–2015) to Associate Professor (2015–2021) and currently serving as Professor (2021–present) πŸ“š. Additionally, she was a Senior Research Fellow at the University of Bristol, UK (2019–2020), contributing to biomaterials and ceramic research 🌍.

Academic Career 🏫

Prof. Jia Lin is a Professor at the School of Materials Science and Engineering, Xiamen University of Technology, China (2021–present) βš™οΈ. She previously served as an Associate Professor (2015–2021) and Lecturer (2013–2015) at the same institution. She was also a Senior Research Fellow at the University of Bristol, UK (2019–2020), contributing to biomaterials and ceramic research 🌍. With a Ph.D. in Materials Science and Engineering from Harbin Institute of Technology (2013) and degrees from Fuzhou University (2010) and Harbin Institute of Technology (2007), she has built a strong international research and teaching career πŸ“šπŸ—οΈ.

Research InterestsΒ  πŸ”¬

Prof. Jia Lin specializes in 3D printing of ceramics, material characterization, and ceramic strength-toughening βš™οΈ. Her research focuses on developing advanced ceramic materials using additive manufacturing techniques, improving their mechanical properties and thermal stability πŸ”₯. She is an expert in microstructural analysis, mechanical evaluation, and phase transformation studies to enhance the performance of ceramic composites. Her work in ceramic strength-toughening explores innovative methods like carbon nanotube reinforcement and polymer-derived ceramic transformations to improve fracture toughness and durability, making her contributions crucial to next-generation high-performance ceramics πŸš€.

Publications πŸ“„

“Properties and Ceramic Transformation of Si-Zr-O-C Precursor Ceramics with Porous Structure” βš™οΈπŸ—οΈ
πŸ‘¨β€πŸ’» Authors: Jia Lin, Shuai Wang, Hua Jin, Guimei Huang, Jinhuo Wang
πŸ“š Journal: APL Materials (2024)

“Photopolymerization-Based Three-Dimensional Ceramic Printing Technology” πŸ–¨οΈπŸ”₯
πŸ‘¨β€πŸ’» Authors: Shuai Wang, Jia Lin, Hua Jin, Guimei Huang, Jinhuo Wang
πŸ“š Journal: 3D Printing and Additive Manufacturing (2024)

“Preparation and Property Characterization of Zr-Modified Si-O-C-Based Precursor Ceramics Through Three-Dimensional Printing” πŸ—οΈβš‘
πŸ‘¨β€πŸ’» Authors: Jia Lin, Shuai Wang, Yihang Yang, Guimei Huang, Jinhuo Wang
πŸ“š Journal: Journal of the Australian Ceramic Society (2024)

“Preparation of Si-O-C-Based Precursor Ceramics for Photo-Curing 3D Printing: Selection of Silicone Prepolymer System and Photoinitiator” πŸ­πŸ–¨οΈ
πŸ‘¨β€πŸ’» Authors: Jia Lin, Shuai Wang, Hua Jin, Jinhuo Wang, Guimei Huang
πŸ“š Journal: Journal of Materials Engineering and Performance (2024)

Prof. Jia Lin’s cutting-edge research in 3D-printed ceramics, precursor ceramic materials, and photopolymerization techniques is advancing next-generation high-performance materials for structural and industrial applications πŸš€.

Assoc. Prof. Dr Guangyu Duan | Polymer Science | Best Researcher Award

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Assoc. Prof. Dr Guangyu Duan | Polymer Science | Best Researcher Award

Dr. Guangyu Duan is an Associate Professor and Vice Dean at Henan University of Engineering, specializing in polymer science, high-performance polymers, and dielectric materials 🏭⚑. He earned his Ph.D. in Polymer Science from Donghua University and has held research roles as a postdoctoral researcher and senior scientist in the China Electronics Technology Group πŸ—οΈ. His work focuses on advanced polymer composites, biodegradable fibers, and nanotechnology-based materials πŸ§ͺ🌱. With high-impact publications, patented innovations, and significant research funding, he is a leader in materials science and energy storage applications, making substantial contributions to both academia and industry πŸš€.

Assoc. Prof. Dr Guangyu Duan, Henan University of Engineering, China

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Academic Background πŸŽ“

Dr. Guangyu Duan is an Associate Professor with a Ph.D. in Polymer Science from Donghua University 🏫. With over a decade of experience in academia and industry, he has published extensively in high-impact journals and secured significant research funding πŸ“šπŸ’°. He has served as a postdoctoral researcher at Donghua University and a senior scientist at China Electronics Technology Group ⚑. His expertise includes polymer composites, high-performance fibers, and dielectric materials πŸ—οΈ. Currently, he mentors graduate students and collaborates with international research teams, driving innovation in advanced polymer materials and sustainable technologies πŸš€.

Research and Innovations πŸ—οΈ

Dr. Guangyu Duan has led and contributed to major national and provincial research projects in polymer science, dielectric materials, and advanced composites ⚑. His work is supported by prestigious funding programs, including the National Key R&D Program of China (2021YFB3700101) and the National Natural Science Foundation of China (52370073) πŸ“šπŸ’°. He also plays a key role in Henan Province’s Science and Technology Innovation Initiatives, securing funding for high-impact research in sustainable materials and high-performance polymers 🏭🌱. These projects highlight his contributions to scientific advancements and industrial applications πŸš€.

Research FocusπŸ”¬

Dr. Guangyu Duan specializes in high-temperature dielectric materials, high-performance polymers, and polymer composites, advancing next-generation materials for energy storage and electronic applications βš™οΈπŸ”‹. His research focuses on developing high-stability polymer dielectrics for extreme environments, enhancing mechanical and thermal properties πŸ—οΈπŸ”₯. He also works on high-performance fibers with superior strength-to-weight ratios, benefiting industries like aerospace and electronics πŸš€. His expertise in polymer composites integrates nanotechnology to improve durability, flexibility, and sustainability 🌱. His contributions drive innovation in dielectric materials, fiber technology, and polymer engineering, making significant impacts in science and industry πŸ“šπŸ­.

Contributions 🌱

Dr. Guangyu Duan has made groundbreaking contributions to polymer materials, enhancing thermal stability and mechanical properties for extreme environments πŸ”₯βš™οΈ. His work on biodegradable fibers promotes sustainability and environmental protection 🌱. By integrating nanotechnology in polymer composites, he has developed high-strength, lightweight materials with superior performance πŸš€. His research on polymer dielectric films has paved the way for flexible electronics and energy storage applications πŸ”‹πŸ“‘. Through patents, publications, and collaborations, his work has driven scientific advancements and commercialization, while mentoring the next generation of polymer scientists πŸ“šπŸ†.

Publications πŸ“„

“Novel Sandwich-Structured Flexible ANF/PMIA/ANF Composite Paper with Enhanced Breakdown Strength” πŸ“œβš‘
πŸ‘¨β€πŸ’» Authors: Guangyu Duan, Fengying Hu, Yinghao Liang, Duo Lu, Wenxuan Shao, Ruopu Xu, Yabing Wang, Zuming Hu
πŸ“š Journal: Fibers and Polymers (2025)

Title: “All-Organic Sandwich-Structured Dielectric Films Based on Aramid Nanofibers and Polyimide for High-Temperature Electrical Energy Storage” βš‘πŸ”‹
πŸ‘¨β€πŸ’» Authors: Guangyu Duan, Fengying Hu, Yabing Wang, Wenxuan Shao, Ruopu Xu, Duo Lu, Zuming Hu
πŸ“š Journal: ACS Applied Nano Materials (2025)

“Preparation of a Novel Cross‐Linked Polyetherimide with Enhanced Breakdown Strength and High‐Temperature Energy Storage Performance” πŸ—οΈβš™οΈ
πŸ‘¨β€πŸ’» Authors: Guangyu Duan, Fengying Hu, Ruina Zhang, Zuming Hu
πŸ“š Journal: High Voltage (2023)

“High-Temperature PMIA Dielectric Composites with Enhanced Thermal Conductivity Utilizing Functionalized BaTiO3 Nanowires–Carbon Nanotubes Fillers” πŸ”¬βš‘
πŸ‘¨β€πŸ’» Authors: Guangyu Duan, Fengying Hu, Zhongyuan Xin, Changlong Chi, Xiang Yu
πŸ“š Journal: High Performance Polymers (2022)

Dr. Guangyu Duan‘s research in dielectric materials, polymer composites, and high-temperature energy storage is advancing next-generation electronic and energy storage applications πŸš€βš‘.