Michiaki Kobayashi – Nonlocal Causarity – Best Researcher Award 

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Prof. Dr. Michiaki Kobayashi - Nonlocal Causarity - Best Researcher Award 

Kitami Institute of Technology - Japan

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Scopus

🎓 Early Academic Pursuits

Prof. Dr. Michiaki Kobayashi began his academic journey at Hokkaido University, where he pursued engineering with a strong focus on theoretical and applied mechanics. He earned his B.S. in Engineering in 1970, followed by an M.S. in Engineering in 1972. Demonstrating exceptional research capabilities, he completed his Ph.D. in Engineering in 1976, marking the beginning of a distinguished career in advanced mechanics and mathematical physics. His early academic pursuits laid a solid foundation for his later work in nonlocal causality, a field that has profound implications in physics and engineering.

💼 Professional Endeavors

Prof. Kobayashi embarked on his professional career as a Postdoctoral Fellow at the Japan Society for the Promotion of Science in 1975, furthering his research in applied mechanics. He then served as an Associate Professor at Hachinohe Institute of Technology from 1976 to 1990, contributing significantly to the academic and research environment. His international experience includes a Visiting Associate Research Engineer role at the University of California, San Diego (1987-1988) and a Visiting Scholar position at the University of Washington (1996-1997). His tenure at Kitami Institute of Technology, where he served as a Professor from 1991 to 2013 and later as Executive Vice President (2006-2008), further solidified his status as a leading researcher in nonlocal causality. He currently holds the title of Professor Emeritus at Kitami Institute of Technology.

🔬 Contributions and Research Focus

Prof. Kobayashi’s research primarily revolves around nonlocal causality, a complex and influential concept in mechanics and physics. His work has contributed to deeper insights into causality principles beyond classical interpretations, with applications in materials science, wave propagation, and theoretical physics. His studies on nonlocal causality have led to groundbreaking advancements in how distant interactions influence mechanical and physical systems, reshaping traditional understandings in engineering sciences.

🌍 Impact and Influence

The impact of Prof. Kobayashi’s work extends internationally, influencing researchers in fields such as mechanics, mathematical physics, and engineering applications. His pioneering contributions to nonlocal causality have provided new perspectives on fundamental scientific problems, bridging gaps between classical and modern theories. His tenure as a professor and researcher at prestigious institutions, along with his mentorship of numerous students, has left a lasting imprint on the academic community. His collaborative work with international institutions, including in the United States, has further enriched global discourse on advanced mechanics and engineering sciences.

🏆Academic Cites

Prof. Kobayashi’s research has been widely cited in high-impact journals, particularly in areas related to mechanics, applied mathematics, and theoretical physics. His exploration of nonlocal causality has influenced both theoretical advancements and experimental validations, making his work a critical reference point for researchers in the field. His extensive publication record and scholarly contributions have solidified his reputation as a leading expert in engineering sciences.

🌟 Legacy and Future Contributions

As Professor Emeritus at Kitami Institute of Technology, Prof. Kobayashi continues to shape the future of engineering and physics through his research and mentorship. His contributions to nonlocal causality have laid a foundation for future studies that aim to refine our understanding of causality beyond conventional frameworks. Moving forward, his work is expected to inspire further theoretical developments and practical applications, ensuring his lasting legacy in the field of engineering and applied mechanics.

📝Nonlocal Causality

Prof. Dr. Michiaki Kobayashi’s pioneering research in nonlocal causality has redefined traditional understandings in mechanics and physics. His exploration of nonlocal causality has bridged theoretical and applied perspectives, leading to new advancements in engineering sciences. Future research inspired by his contributions to nonlocal causality promises to further expand the boundaries of knowledge in the field.

Notable Publication

📝Nonlocal vibration of crack front particles entangled by phase transformation caused by fracture as shock-wave state

Author: M. Kobayashi

Journal: European Physical Journal Plus

Year: 2024

Citations: 0

📝Quantizing soliton-like phonon pulse and optical branch of lattice vibration at crack tip excited by crack propagation as shock waves

Author: M. Kobayashi

Journal: International Journal of Solids and Structures

Year: 2020

Citations: 3

📝Solitary pulse wave radiated by crack propagation as shock wave

Author: M. Kobayashi

Journal: International Journal of Solids and Structures

Year: 2019

Citations: 2

📝Bifurcation analysis of fracture mode by simulated and experimental ductile fracture progress based on the proposed crack opening criterion

Authors: M. Kobayashi, J.I. Shibano

Journal: International Journal of Solids and Structures

Year: 2018

Citations: 8

📝Ductile to brittle fracture analysis based on improved application of proposed crack opening criterion deduced by micro-crack evolution equation

Author: M. Kobayashi

Journal: International Journal of Solids and Structures

Year: 2017

Citations: 7

📝Verification of crack opening criterion deduced by newly derived micro-crack evolution equation

Author: M. Kobayashi

Journal: International Journal of Solids and Structures

Year: 2017

Citations: 7

Jinqiu Wu – Underwater Acoustic Signal Processing – Best Researcher Award 

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Prof. Jinqiu Wu - Underwater Acoustic Signal Processing - Best Researcher Award 

Peng Cheng Laboratory - China

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🎓 Early Academic Pursuits

Prof. Jinqiu Wu began his academic journey with a deep interest in signal and information processing, earning both his M.S. and Ph.D. degrees from the College of Underwater Acoustic Engineering at Harbin Engineering University (HEU), China. Completing his Ph.D. in 2018, he focused on advanced underwater communication technologies, laying a strong foundation for his future research contributions. His academic excellence and passion for innovation positioned him as a leading expert in underwater acoustic signal processing.

💼 Professional Endeavors

Since 2020, Prof. Jinqiu Wu has been serving as the Director of the Basic Research Laboratory for Control and Networks at Peng Cheng Laboratory. In this role, he has led numerous research initiatives aimed at enhancing underwater communication technologies. His work has significantly contributed to the development of underwater spread spectrum communication and array communication, crucial areas in the field of underwater acoustic signal processing.

🔬 Contributions and Research Focus

Prof. Wu’s research primarily focuses on underwater acoustic signal processing, particularly in underwater spread spectrum communication and array communication. His contributions include developing innovative algorithms and signal processing techniques that improve the efficiency and reliability of underwater communication systems. Through his research, he has enhanced signal transmission methods, reducing noise interference and increasing data accuracy in complex underwater environments. His pioneering work in underwater acoustic signal processing has strengthened global advancements in marine and naval communication systems.

🌍 Impact and Influence

Prof. Jinqiu Wu’s impact in the field extends beyond academic research, as he actively collaborates with international researchers and industry leaders to apply his findings in real-world scenarios. His expertise in underwater acoustic signal processing has positioned him as an influential figure in marine communication technologies. His research has been published in leading scientific journals, including "Acta Acustica," reinforcing his status as a top researcher in the field.

🏆Academic Cites

With over 10 published papers as the first author, including five SCI-indexed papers and two influential articles in "Acta Acustica," Prof. Wu’s research has gained significant academic recognition. His publications are widely cited, demonstrating their impact on the field of underwater acoustic signal processing. Additionally, his innovative contributions have led to the application of more than 10 domestic and international patents, further solidifying his influence in underwater communication technologies.

🌟 Legacy and Future Contributions

Prof. Jinqiu Wu’s legacy in underwater acoustic signal processing is marked by his groundbreaking research and technological innovations. His future contributions are expected to further advance underwater communication systems, making them more efficient and reliable. As he continues his leadership at Peng Cheng Laboratory, his work will shape the next generation of underwater signal processing technologies. Through mentoring young researchers and fostering new advancements, Prof. Wu ensures that his contributions to underwater acoustic signal processing will have a lasting impact on the scientific and engineering communities.

📝Underwater Acoustic Signal Processing

Prof. Jinqiu Wu’s extensive work in underwater acoustic signal processing has greatly improved underwater communication systems. His innovations in underwater acoustic signal processing have enhanced signal transmission, reduced interference, and increased efficiency in marine environments. As he continues his research, the future of underwater acoustic signal processing looks promising, with further advancements expected in underwater communication technologies.

Notable Publication

📝DOA Estimation for Underwater Acoustic Array in Impulsive Noise Based on Adaptive Kernel Width Mixture Correntropy

Journal: IEEE Transactions on Geoscience and Remote Sensing

Year: 2025

Authors: Zehua Dai, Jinqiu Wu, Jingwei Yin, Wenbo Zhang, Xiaofei Qi, Gang Qiao

Topic: Direction of Arrival (DOA) estimation in underwater acoustic arrays under impulsive noise.

📝A Lightweight Secure Scheme for Underwater Wireless Acoustic Network

Journal: Journal of Marine Science and Engineering

Year: 2024

Authors: Jia Shi, Jinqiu Wu, Zhiwei Zhao, Xiaofei Qi, Wenbo Zhang, Gang Qiao, Dahong Zuo

Topic: Security protocols for underwater wireless acoustic networks.

📝Design of a Broadband Cavity Baffle Bender Transducer

Journal: Journal of Marine Science and Engineering

Year: 2022

Authors: Zhiwei Zhao, Jinqiu Wu, Xiaofei Qi, Gang Qiao, Wenbo Zhang, Chaofan Zhang, Kang Guo

Topic: Development of a broadband transducer for underwater applications.

📝Orthogonal Frequency Division Multiplexing Underwater Acoustic Communication System with Environmental Cognition Ability

Journal: Security and Communication Networks

Year: 2021

Authors: Jinqiu Wu, Xiaofei Qi, Kang Guo, Jiaqiong Zhou, Yi Zhang, Chi-Hua Chen

Topic: OFDM-based underwater acoustic communication with adaptive environmental awareness.

📝Emerging 5G Multicarrier Chaotic Sequence Spread Spectrum Technology for Underwater Acoustic Communication

Journal: Complexity

Year: 2018

Authors: Wu Jinqiu, Qiao Gang, Kang Pengbin, Christos Volos

Topic: Chaotic sequence spread spectrum techniques for 5G-based underwater communication.

Himanshu Kumar – Computational Physics – Excellence in Research 

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Dr. Himanshu Kumar - Computational Physics - Excellence in Research 

Damghan University - India

Author Profile

Scopus

🎓 Early Academic Pursuits

Dr. Himanshu Kumar's academic journey began with a strong foundation in physics and computational sciences. He earned his BSc in Physics from Vinobha Bhave University, Jharkhand, India (1993-1996), followed by an Advanced Diploma in Information Systems from Oxford Software Institute, Delhi, India (1996-1998). His interdisciplinary approach to science and technology was further strengthened when he pursued PGDITM (Equivalent to MSc in Management and Information) at AIMA, Delhi, India (1998-2002). His passion for physics led him to earn an MSc in Physics from Jamia Millia Islamia University, Delhi, India (2002-2004), culminating in a PhD in Physics from the same institution (2007-2014). These formative years provided him with a deep understanding of both theoretical and computational physics, laying the groundwork for his future contributions to the field.

💼 Professional Endeavors

Dr. Himanshu Kumar has an extensive teaching career spanning over two decades. His professional endeavors post-PhD include roles such as Adjunct Professor at Delhi Technological University (2024-Present) and Affiliated Faculty at the School of Physics, Damghan University, Iran (2023-Present). Previously, he was an Assistant Professor at Delhi University (2016-2023), NSUT University (2014-2016), and Lingaya University (2013-2014). Before earning his PhD, he served as a Senior Lecturer at Skyline Institute of Engineering and Technology, Greater Noida (2006-2010). His extensive teaching portfolio covers a wide range of physics, computer science, and mathematics courses, including Computational Physics, Cosmology, Classical Mechanics, Solid State Physics, and Engineering Physics. His high student evaluation scores across multiple institutions reflect his dedication to quality education.

🔬 Contributions and Research Focus

Dr. Kumar’s primary research focus is on Computational Physics, where he specializes in modeling complex physical systems both analytically and numerically. He has published five papers in high-impact journals, with an additional three papers on arXiv and three more in communication. His research contributions extend beyond publication; he has delivered six talks at various conferences, showcasing his expertise in computational methodologies. His research integrates physics, computer science, and mathematical modeling, pushing the boundaries of how computational techniques can be applied to physical phenomena.

🌍 Impact and Influence

Dr. Kumar’s impact is felt both in academia and in the broader field of computational sciences. His contributions to Computational Physics have influenced students, researchers, and institutions, leading to significant advancements in numerical modeling techniques. He has mentored six students in summer research programs, guiding them toward groundbreaking discoveries in the field. His role as a researcher and educator has enabled him to shape the next generation of physicists and computational scientists.

🏆Academic Cites

Dr. Himanshu Kumar's research has received recognition and citations in high-impact scientific journals, indicating the significance of his work in Computational Physics. His contributions are frequently referenced by other researchers working on computational models in physics, numerical analysis, and theoretical simulations. His involvement in various conferences has further solidified his reputation as a thought leader in the field.

🌟 Legacy and Future Contributions

Looking ahead, Dr. Kumar aims to continue his pioneering work in Computational Physics, further refining numerical methods and developing innovative models to solve complex physical problems. His future contributions are expected to influence emerging areas of research, particularly in computational modeling and simulation. Through continued mentorship, research, and teaching, he will leave a lasting impact on both academic and applied physics, ensuring his legacy as a key figure in the advancement of computational methodologies.

📝Computational Physics

Dr. Himanshu Kumar’s extensive contributions to Computational Physics have advanced the field by integrating analytical and numerical modeling techniques. His research in Computational Physics has resulted in high-impact publications and significant academic recognition. The future of Computational Physics is set to benefit from his continued work in developing innovative computational models for complex physical systems.

Notable Publication

📝Quantum gravitational corrections to the geometry of charged AdS black holes

Authors: Behnam Pourhassan, Ruben Campos Delgado, Sudhaker Upadhyay, Hoda Farahani, Himanshu Kumar

Journal: Nuclear Physics, Section B

Year: 2025

Citations: 0

Chandrasekhar Maalegoundla – Nano Materials and Glasses – Best Researcher Award 

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Dr. Chandrasekhar Maalegoundla - Nano Materials and Glasses - Best Researcher Award 

Matrusri Engineering College - India

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🎓 Early Academic Pursuits

Dr. Chandrasekhar Maalegoundla began his academic journey with a strong foundation in science and technology. He earned his B.Sc from Osmania University, Hyderabad, which laid the groundwork for his specialization in electronics and microprocessors. His passion for advancing knowledge led him to pursue an M.Sc in Electronics and Microprocessors from SKD University, Anantapur. To further deepen his expertise, he completed a Ph.D. from Osmania University, Hyderabad, focusing on cutting-edge research areas that have significant scientific and industrial applications.

💼 Professional Endeavors

With over 23 years of experience in educational institutions, Dr. Maalegoundla has dedicated his career to academia. His professional journey includes roles as an Assistant Professor at Matrusri Engineering College (since 2012), Islamia College of Engineering (2009-2012), and Matrix College of Engineering (2008-2009). Throughout his career, he has exhibited strong teamwork, leadership, and an ability to mentor students while actively contributing to the advancement of scientific knowledge. His role as an educator has been instrumental in shaping the next generation of engineers and researchers.

🔬 Contributions and Research Focus

Dr. Maalegoundla's research focus revolves around Nano Materials and Glasses, which have extensive applications in engineering, electronics, and materials science. His contributions include publishing high-impact research on Nano Materials and Glasses, advancing their applications in microprocessors, electronics, and structural engineering. His work has contributed to the development of new materials with enhanced properties, opening doors for technological innovations in various fields.

🌍 Impact and Influence

Dr. Chandrasekhar Maalegoundla has significantly impacted the academic and research community through his peer-reviewed publications and conference presentations. His achievements include the Certificate of Excellence in Peer Reviewing from the Researcher Academy (2024) and the Best Paper Award (2022) from the Research Association of Masters of India, Pune. His research on Nano Materials and Glasses has gained recognition for its innovative approach and scientific rigor. His ability to inspire students and collaborate with fellow researchers has made him a respected figure in academia.

🏆Academic Cites

Dr. Maalegoundla’s research has been widely cited in academic circles, reflecting its importance and relevance in advancing materials science. His work on Nano Materials and Glasses has provided valuable insights into material behavior, microprocessor applications, and nanotechnology. His scholarly contributions continue to influence researchers exploring new materials for industrial and scientific applications.

🌟 Legacy and Future Contributions

Looking forward, Dr. Maalegoundla aims to further his research in Nano Materials and Glasses, exploring their potential in next-generation electronics, sensors, and optical applications. His commitment to mentoring young researchers and his continued contributions to academia ensure that his legacy will have a lasting impact. As he continues to publish groundbreaking work and collaborate with leading institutions, his influence on the scientific community will remain strong.

📝Nano Materials and Glasses

Dr. Chandrasekhar Maalegoundla’s pioneering research in Nano Materials and Glasses has significantly contributed to advancements in material science and electronics. His innovative studies on Nano Materials and Glasses have led to new discoveries with potential industrial applications. The future of Nano Materials and Glasses research looks promising under his continued dedication and expertise.

Notable Publication

📝Influence of manganese ions on physical and spectroscopic properties of mixed alkali-alkaline earth oxide borate glasses

Authors: M.N.C. Abdul Hameed, A. Balakrishna, B. Srinivas, M. Chandrasekhar, Md. ...

Journal: Optik

Year: 2021

Citations: 22

📝Physical and spectroscopic studies of CaF₂-Al₂O₃-Bi₂O₃-B₂O₃-CuO glasses

Authors: C. Maalegoundla, K.C. Sekhar, A. Hameed, B. Srinivas, M. Shareefuddin

Journal: Journal of the Australian Ceramic Society

Year: 2022

Citations: 7

📝The influence of the substitution of PbF₂ with Al₂O₃ on physical, optical, and spectroscopic properties of multicomponent glasses

Authors: C. Maalegoundla, G. Sangeetha, K.C. Sekhar, D. Sreenivasu, ...

Journal: Journal of Materials Science: Materials in Electronics

Year: 2023

Citations: 3

📝Eco-Compatible ZnO Nanoparticles Synthesized Using Aloe barbadensis Miller and Azadirachta indica: Multifaceted Characterization for Antimicrobial Applications

Authors: C. Maalegoundla, P. Naveen, M. Naveen, V.S. Kumari, G. Chanti, N.P. Kumar

Journal: Journal of Alloys and Compounds

Year: 2025

📝CaF₂–Al₂O₃ multicomponent borate glasses doped with MnO₂: physical and spectroscopic characterization

Authors: C. Maalegoundla, K. Chandrasekhar, M. Shareefuddin

Journal: Indian Journal of Physics

Year: 2024

📝The physical, optical, and EPR studies of PbF₂-Al₂O₃-Bi₂O₃-B₂O₃-CuO glasses

Authors: C.M. Abdul Hameed, G. Ramadevudu, Md. Shareefuddin

Journal: AIP Conference Proceedings

Year: 2023

Samaneh Dehghani – Re-use of Plastic Wastes – Best Researcher Award

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Ms. Samaneh Dehghani - Re-use of Plastic Wastes - Best Researcher Award 

Mahasarakham University - Thailand

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🎓 Early Academic Pursuits

Ms. Samaneh Dehghani embarked on her academic journey with a strong passion for polymer engineering, leading her to pursue advanced studies in this specialized field. She earned her Ph.D. in Polymer Engineering from Sahand University of Technology, Tabriz, Iran, where she conducted groundbreaking research on polymer processing aid additives in molten polyolefins. Her early academic pursuits also included an M.Sc. in Polymerization Engineering at the Iran Polymer & Petrochemical Institute (IPPI), where she explored hybrid catalysts for ethylene polymerization. Her strong academic foundation set the stage for her impactful contributions to Re-use of Plastic wastes and sustainable polymer technologies.

💼 Professional Endeavors

With over 13 years of combined academic and industrial experience, Ms. Dehghani has played a pivotal role in advancing polymer research. She has worked extensively in polymer recycling, sustainable development, and thermoplastic formulations. Her career spans across multiple prestigious organizations, including Mahasarakharm University, Shoraka Segane Company, Automotive Compounding Company, and NPC-RT, where she developed high-performance recycled polyolefin blends and thermoplastic elastomers (TPEs). As a Senior R&D professional, she led projects in formulating automotive compounds and processing aids, focusing on Re-use of Plastic wastes to create cost-effective, high-quality polymer products.

🔬 Contributions and Research Focus

Ms. Dehghani’s research primarily revolves around Re-use of Plastic wastes, polymer recycling, and sustainable material development. She has pioneered the development of additive systems to enhance recycled polyolefin blends, incorporating bio-based compatibilizers such as epoxidized soybean oil (ESO) and chain extenders to improve polymer blend performance. Her expertise spans across polymer processing techniques like extrusion and injection molding, with extensive experience in characterization methods such as Rheometer, DSC, FTIR, TGA, DMTA, XRD, and SEM. She has also contributed to innovations in biodegradable polymers through her editorial work for the Journal of Advanced Materials Science and Technology.

🌍 Impact and Influence

Ms. Dehghani’s work has significantly influenced the field of polymer sustainability, particularly in advancing the mechanical recycling of thermoplastics. Her research has provided practical solutions to industries seeking to optimize Re-use of Plastic wastes by improving material formulations and enhancing the performance of recycled thermoplastics. She has collaborated with top-tier petrochemical and automotive companies, driving innovation in thermoplastic elastomers (TPEs) and polypropylene (PP) compounds. Her contributions extend to academia, where she has mentored young researchers and contributed to global discussions on sustainable polymer engineering.

🏆Academic Cites

Her research has been widely cited in scientific literature, reflecting the importance of her work in polymer recycling and sustainability. By publishing numerous studies on polymer processing aids, rheological behavior, and sustainable thermoplastic formulations, she has established herself as a leading researcher in the field. Her work continues to be referenced by experts seeking to develop eco-friendly solutions for polymer waste management.

🌟 Legacy and Future Contributions

Ms. Dehghani’s legacy in polymer engineering is defined by her relentless pursuit of sustainable solutions for polymer waste. Moving forward, she aims to expand her research into advanced recycling technologies and the integration of bio-based materials into commercial polymer production. Her ongoing efforts will contribute to the broader goal of reducing plastic waste and promoting environmental sustainability in industrial applications. As a dedicated scientist and innovator, she remains committed to revolutionizing the future of polymer engineering with a strong emphasis on Re-use of Plastic wastes.

📝Re-use of Plastic Wastes

Ms. Samaneh Dehghani has made groundbreaking contributions to the re-use of plastic wastes, focusing on mechanical recycling and innovative additive systems. Her expertise in polymer engineering has led to the development of advanced formulations that enhance the re-use of plastic wastes in various industrial applications. By continuously exploring new processing techniques and sustainable solutions, she remains at the forefront of re-use of plastic wastes, driving innovation and environmental responsibility in polymer science.

Notable Publication

📝Slip behavior of high-density polyethylene at small shear stresses in the presence of esterified polyethylene glycol

Authors: S. Dehghani, M.S. Hosseini, E. Behzadfar

Journal: Physics of Fluids

Year: 2021

Citations: 3

📝First report of human infestation dermatitis due to chigger mite (Acari: Trombiculidae) in Iran

Authors: H. Kassiri, B. Fathi, R. Dehghani, S. Dehghani, K. Doostifar

Journal: Journal of Entomological Research

Year: 2020

Citations: 3

📝Mechanical recycling of polyamide 6 and polypropylene for automotive applications

Authors: S. Dehghani, R. Salehiyan, Y. Srithep

Journal: Polymer Engineering & Science

Year: 2024

Citations: 2

📝Mechanism of the esterified processing aid based on PEG and fluoropolymers in molten high-density polyethylene (HDPE)

Authors: S. Dehghani

Journal: Journal of Polymer Research

Year: 2023

Citations: 1

📝Mechanical and thermal properties of polylactic acid blended with recycled polymethyl methacrylate

Authors: S. Dehghani, R. Salehiyan, D. Pholharn, Y. Srithep

Journal: Polymer Engineering & Science

Year: 2025

📝Re-Use of Polycarbonate from Compact Discs to Enhance the Thermal Stability of Polylactic Acid Blends

Authors: S. Dehghani, D. Pholharn, Y. Srithep

Journal: Polymers

Year: 2025

📝A comprehensive review of the relationship between air pollution and type 2 diabetes

Authors: S. Dehghani, V. Oskoei, N.B. Yazdi, S.S. Yousefabad, A. Jafarian, ...

Book Chapter: Diseases and Health Consequences of Air Pollution

Year: 2024

Basanta Das – Hydrogen Storage Materials – Best Researcher Award

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Dr. Basanta Das - Hydrogen Storage Materials - Best Researcher Award 

Bhabha Atomic Research Centre - India

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🎓 Early Academic Pursuits

Dr. Basanta Das began his academic journey with a deep interest in Condensed Matter Physics, which laid the foundation for his research career. His early studies focused on advanced materials and experimental physics, leading him to explore specialized areas such as Hydrogen Storage Materials, Non-Evaporable Getters, and Ultra-High Vacuum Systems. With a strong foundation in both theoretical and experimental physics, he pursued research that would later contribute significantly to the development of vacuum devices and plasma systems.

💼 Professional Endeavors

With 28 years of extensive scientific experience, Dr. Basanta Das has worked on several critical projects involving low-temperature plasma, ion sources, neutron generators, and nano-particle generation. His expertise spans multiple disciplines, particularly in working with complex scientific machines like TOKAMAK, where he has spent a decade studying plasma interactions and developing cutting-edge technology. His role in studying Hydrogen Storage Materials has been particularly impactful in energy research, helping to advance sustainable hydrogen-based energy solutions.

🔬 Contributions and Research Focus

Dr. Das has made significant contributions to multiple fields, including Hydrogen Storage Materials, cold plasma research, and ultra-high vacuum systems. His research has focused on improving particle sources (electron, ion, neutron) and sealed-off vacuum devices, which are essential for various industrial and scientific applications. Notably, his poster presentations at prestigious international conferences, such as the 18th International Symposium on Ion Beam Analysis (2007) and the IEEE Nuclear Science Symposium (2008), have demonstrated his influence in the field. His research on neutron flux measurement and nano-particle generation has provided essential insights into material science and plasma physics.

🌍 Impact and Influence

Dr. Basanta Das's work has had a far-reaching impact on experimental physics, particularly in the development of advanced materials and plasma technologies. His expertise in Hydrogen Storage Materials has influenced research on sustainable energy solutions, while his contributions to ion source technology have advanced applications in medical imaging, nuclear science, and material characterization. His research findings, presented at international conferences, have shaped the understanding of particle interactions with matter and improved neutron generation techniques.

🏆Academic Cites

Dr. Das’s extensive research has led to numerous citations in high-impact journals and conference proceedings. His work on Hydrogen Storage Materials, thin-film interactions, and ultra-high vacuum systems is frequently referenced by researchers worldwide. His collaboration with esteemed scientists on projects such as the selection of proper plasma electrode geometry for penning ion sources and nano-powder generation through electrical explosion of wires has established him as a leading figure in the scientific community.

🌟 Legacy and Future Contributions

As Dr. Basanta Das continues his research, his future contributions are expected to further enhance the understanding of Hydrogen Storage Materials, cold plasma interactions, and vacuum systems. His ongoing efforts in neutron flux measurement and plasma ion source development will play a crucial role in advancing clean energy and experimental physics. His legacy is marked by his dedication to scientific innovation, mentorship, and contributions to the global research community. His influence will continue to inspire future generations of physicists and engineers in the pursuit of advanced material and plasma science research.

📝Hydrogen Storage Materials

Dr. Basanta Das has made significant contributions to the study of Hydrogen Storage Materials, influencing energy research and material science. His experimental work on Hydrogen Storage Materials has improved energy efficiency and material durability. The future of Hydrogen Storage Materials research will continue to benefit from his pioneering efforts in plasma systems and vacuum technology.

Notable Publication

📝Development of compact size Penning ion source for compact neutron generator

Authors: B.K. Das, A. Shyam

Journal: Review of Scientific Instruments

Year: 2008

Citations: 54

📝Low voltage operation of plasma focus

Authors: R. Shukla, S.K. Sharma, P. Banerjee, R. Das, P. Deb, T. Prabahar, B.K. Das, ...

Journal: Review of Scientific Instruments

Year: 2010

Citations: 26

📝Development of hollow anode Penning ion source for laboratory application

Authors: B.K. Das, A. Shyam, R. Das, A.D.P. Rao

Journal: Nuclear Instruments and Methods in Physics Research Section A: Accelerators

Year: 2012

Citations: 25

📝Analysis of electrical explosion of wire systems for the production of nanopowder

Authors: R. Das, B.K. Das, R. Shukla, T. Prabaharan, A. Shyam

Journal: Sadhana

Year: 2012

Citations: 24

📝Improvement of plasma performance with lithium wall conditioning in Aditya tokamak

Authors: M.B. Chowdhuri, R. Manchanda, J. Ghosh, S.B. Bhatt, A. Kumar, B.K. Das, ...

Journal: Plasma Science and Technology

Year: 2013

Citations: 23

📝Characterization of high power microwave radiation by an axially extracted vircator

Authors: R. Verma, R. Shukla, S.K. Sharma, P. Banerjee, R. Das, P. Deb, T. Prabaharan, ...

Journal: IEEE Transactions on Electron Devices

Year: 2013

Citations: 17

📝Measurement of 14 MeV neutron flux from DT neutron generator using activation analysis

Authors: S. Jakhar, C.V.S. Rao, A. Shyam, B. Das

Journal: 2008 IEEE Nuclear Science Symposium Conference Record

Year: 2008

Citations: 14

Jianpeng Zou – Powder Metallurgy Composite – Best Researcher Award

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Prof. Jianpeng Zou - Powder Metallurgy Composite - Best Researcher Award 

Central South University - China

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🎓 Early Academic Pursuits

Professor Jianpeng Zou’s academic journey began at Central South University, where he pursued a Master's degree in Metallurgical Physics and Chemistry, graduating in June 2001. His outstanding academic performance led to his selection as a teacher at the Powder Metallurgy Research Institute of Central South University. Demonstrating a strong passion for materials science, he continued his studies and obtained a PhD in Materials Science from Central South University in October 2005. This solid educational foundation set the stage for his extensive research in powder metallurgy composite materials.

💼 Professional Endeavors

Prof. Zou has dedicated his career to the research and development of copper-based powder metallurgy composite materials. His professional journey includes his promotion to associate professor in September 2007, followed by a full professorship in September 2012. His international exposure as a visiting scholar at the Materials Department of the University of British Columbia, Canada, from October 2009 to October 2010, further enriched his expertise. As a key educator, he serves as the main lecturer for the undergraduate course "Powder Metallurgy Materials Science," shaping the next generation of materials scientists.

🔬 Contributions and Research Focus

Prof. Zou has focused extensively on copper-based powder metallurgy composite materials, leading to numerous innovative breakthroughs in the field. His research spans sintering techniques, mechanical properties enhancement, and the development of advanced composite materials with superior conductivity and wear resistance. As a principal investigator, he has undertaken two projects funded by the National Natural Science Foundation of China, one project supported by the China Postdoctoral Special Fund, and eight enterprise-funded projects, showcasing his strong research leadership and industrial collaboration.

🌍 Impact and Influence

Prof. Jianpeng Zou’s impact extends beyond academia into the industrial sector, where his research in powder metallurgy composite materials has contributed to advancements in manufacturing and applications. His work is widely recognized in academic and industrial circles, influencing both theoretical and practical developments. As an innovator, he has secured 11 authorized invention patents, highlighting his significant contributions to material science innovation.

🏆Academic Cites

With over 80 high-level academic papers published, Prof. Zou’s research has been extensively cited, reinforcing his influence in the field of powder metallurgy composite materials. His contributions serve as a reference point for ongoing studies, shaping future research directions. His scientific publications continue to impact the global materials science community, providing valuable insights into metallurgy and composite material applications.

🌟 Legacy and Future Contributions

Looking ahead, Prof. Jianpeng Zou aims to further advance the field of powder metallurgy composite materials by exploring new material compositions and enhancing processing techniques. His dedication to research and education ensures a lasting legacy in materials science. By mentoring young researchers and leading groundbreaking projects, he is set to drive continued innovation and development in powder metallurgy, leaving a profound impact on both academia and industry.

📝Notable Publication

📝Quenching-induced γ phase spinodal decomposition and interface strengthening in W-Ni-Cu-Co alloy

Authors: Y. Dai, Yanzhang; K. Li, Kun; J. Zou, Jianpeng; S. Zhang, Shenchen; H. Cheng, Huichao

Journal: Journal of Alloys and Compounds

Year: 2025

Citations: 0

📝Achieving Complex-Shaped Stainless Steel Parts via a Facile Net-Shaping Method

Authors: M. Chen, Mengxiong; Y. Fu, Yang; H. Xiong, Huiwen; J. Zou, Jianpeng; K. Zhou, Kechao

Journal: Advanced Engineering Materials

Year: 2025

Citations: 0

📝Effect of Ti₂AlC on the microstructure and properties of Cu-graphite composites

Authors: H. Wei, Hongming; G. Feng, Guangwen; J. Zou, Jianpeng

Journal: Composites Communications

Year: 2024

Citations: 0

📝Recent Advances in Interface Modification of Cu/graphite Composites and Layered Ternary Carbides of Modified Layer Candidate

Authors: H. Wei, Hongming; M. Li, Mingchao; X. Li, Xiaoya; Y. Dai, Yanzhang; J. Zou, Jianpeng

Journal: Journal Wuhan University of Technology, Materials Science Edition

Year: 2024

Citations: 0

📝Efficient catalytic debinding feedstock design for material extrusion additive manufacturing of low warpage and high-density titanium alloy

Authors: M. Chen, Mengxiong; Z. Yi, Zhonghuai; H. Xiong, Huiwen; J. Zou, Jianpeng; K. Zhou, Kechao

Journal: Applied Materials Today

Year: 2024

Citations: 3

📝Effect of the SiO₂ instead of Al₂O₃ in the embedding powder on the microstructure and hot corrosion behavior of silicon-modified aluminide coatings

Authors: Y. Dai, Yanzhang; J. Zou, Jianpeng; X. Ning, Xiaozhi; H. Wei, Hongming; F. Li, Feiyang

Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects

Year: 2024

Citations: 0

MUkhiddin Muminov – Numerical calculus – Best Researcher Award 

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Prof. MUkhiddin Muminov - Numerical calculus - Best Researcher Award 

Samarkand State university - Uzbekistan  

Author Profile

Scopus

Orcid

🎓 Early Academic Pursuits

Prof. Mukhiddin Muminov embarked on his academic journey at Samarkand State University, Uzbekistan, where he enrolled in the Faculty of Applied Mathematics and Mechanics in 1984. After years of rigorous training, he graduated in 1991, earning his MSc degree and qualifying as a mathematician and teacher. His passion for mathematical research led him to pursue a PhD in Physics and Mathematics, specializing in Mathematical Analysis, which he completed in 1998 at the Institute of Mathematics, Academy of Sciences of Uzbekistan. He further advanced his academic credentials by obtaining a DSc in Physics and Mathematics from Samarkand State University in 2021.

💼 Professional Endeavors

Prof. Muminov has held numerous prestigious academic positions throughout his career. Currently, he serves as a Professor at the Faculty of Mathematics at Samarkand State University. He previously held the position of Dean of the Faculty of Mathematics from 2022 to 2023. His international academic experience includes serving as an Associate Professor at Universiti Teknologi Malaysia (UTM) from 2014 to 2021. Before that, he held various teaching and research positions at Samarkand State University, including Assistant Professor, Associate Professor, and Faculty Dean. His extensive career highlights his commitment to advancing mathematical sciences and fostering academic excellence.

🔬 Contributions and Research Focus

Prof. Muminov's research focuses on numerical calculus, operator theory, mathematical physics, and spectral analysis of linear operators. His work includes the study of spectral properties of many-body Hamiltonians on lattices, Friedrichs models, boundary value problems, and delay differential equations. His contributions to numerical calculus have been instrumental in advancing spectral analysis techniques and solving complex mathematical physics problems. He has also worked on Fredholm integral equations and variation principles, making significant theoretical advancements that have practical applications in computational and applied mathematics.

🌍 Impact and Influence

Prof. Muminov's research has had a profound impact on the mathematical community, particularly in the fields of numerical calculus, mathematical physics, and spectral analysis. His scholarly work has influenced both theoretical advancements and practical implementations in various branches of mathematics. He has served on editorial boards of notable journals, including the Malaysian Journal of Industrial and Applied Mathematics (MATEMATIKA) and the International Journal of Mathematical Physics. His membership in the American Mathematical Society further signifies his standing in the global mathematical research community.

🏆Academic Cites

Prof. Muminov's research contributions have been widely cited in academic literature, reflecting the significance and impact of his work in mathematical sciences. His studies on spectral properties, boundary value problems, and numerical calculus are frequently referenced by researchers in applied and theoretical mathematics. His role in mentoring PhD students and collaborating with international scholars has further amplified his academic influence.

🌟 Legacy and Future Contributions

Looking ahead, Prof. Muminov aims to continue his pioneering work in mathematical physics and numerical calculus. His future contributions are expected to refine and expand spectral analysis methods and their applications in computational mathematics. His commitment to teaching, mentoring, and publishing groundbreaking research ensures that his legacy in the field of mathematics will endure for years to come. Through continued academic collaborations and leadership roles, he is poised to make further substantial contributions to the mathematical sciences.

📝Notable Publication

📝Existence conditions for 2-periodic solutions to a non-homogeneous differential equation with piecewise constant argument

Authors: M.I. Muminov, Mukhiddin I.; T.A. Radjabov, Tirkash A.

Journal: Examples and Counterexamples

Year: 2024

Citations: 1

📝The Spectrum of Discrete Schrödinger Operator on a Three-Dimensional Triangular Lattice with a Finite-range Potential

Authors: M.I. Muminov, Mukhiddin I.; J.A. Pardaev, J.A.

Journal: Lobachevskii Journal of Mathematics

Year: 2024

Citations: 0

📝On the Existence of an Eigenvalue of the Generalized Friedrichs Model

Authors: M.I. Muminov, Mukhiddin I.; U.R. Shodiev, U.R.

Journal: Russian Mathematics

Year: 2024

Citations: 0

📝The Problem of Integral Geometry in Three-Dimensional Space with a Weight Function of a Special Form

Authors: M.I. Muminov, Mukhiddin I.; Z.K. Ochilov, Zarifjon Kh.

Journal: [No source information available]

Year: [No year available]

Citations: 0

📝On the Number of Components of the Essential Spectrum of One 2 × 2 Operator Matrix

Authors: M.I. Muminov, Mukhiddin I.; I.N. Bozorov, I.N.; T.K. Rasulov, Tulkin Kh.

Journal: Russian Mathematics

Year: 2024

Citations: 0

Shengxiang Deng – Measurement of Flow Velocity Field in Electrolytic Aluminum – Excellence in Research 

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Prof. Dr. Shengxiang Deng - Measurement of Flow Velocity Field in Electrolytic Aluminum - Excellence in Research 

Shanghai University of Engineering Science - China

Author Profile

Scopus

🎓 Early Academic Pursuits

Prof. Dr. Shengxiang Deng began his academic journey at Central South University of Technology, where he pursued a Bachelor's Degree in Engineering in Thermal Engineering from 1989 to 1993. His academic excellence and passion for energy engineering led him to continue his education, earning a Master's Degree in Engineering in Thermal Engineering from the same university in 1999. Dedicated to advancing his expertise, he completed his PhD in Engineering in Thermal Engineering in 2004 through an on-the-job study program at Central South University. His early academic pursuits laid the foundation for his future research in energy efficiency, industrial processes, and the measurement of flow velocity field in electrolytic aluminum.

💼 Professional Endeavors

Prof. Deng has built an illustrious career spanning multiple roles in academia, industry, and research. His early professional experience includes positions as a technician and engineer in the industrial sector, working at Changsha Zinc Plant and Shenzhen Ruiwei Industrial Co., Ltd. Transitioning to academia, he joined the School of Energy at Central South University in 1999, where he progressed through the ranks from Assistant Professor to Deputy Dean of the School of Energy Science and Engineering. His international experience includes serving as a Visiting Scholar at Purdue University, USA, from 2010 to 2011. Since 2019, he has been a Professor at Shanghai University of Engineering Science, where he also serves as Dean and Discipline Leader of the Department of Energy Engineering.

🔬 Contributions and Research Focus

Prof. Deng’s research focus is centered on energy efficiency, intelligent control systems, and industrial process optimization. One of his most significant contributions is in the measurement of flow velocity field in electrolytic aluminum, which has improved the monitoring and efficiency of aluminum electrolysis processes. His work in developing online simulation intelligent control energy-saving technology has led to groundbreaking advancements in optimizing fuel combustion, flue gas flow, and heat transfer in industrial furnaces. His contributions to the aluminum industry include the development of an online simulation furnace condition diagnosis and intelligent control system for lime furnaces, which was successfully implemented in multiple branches of Aluminum Corporation of China.

🌍 Impact and Influence

Prof. Deng’s influence extends beyond his research projects. He has played a key role in shaping national and regional energy policies as a Natural Science Consulting and Evaluation Expert for the Ministry of Education, Ministry of Science and Technology, and multiple provincial governments in China. As a member of the National Petroleum and Chemical Industry Instrument Technology Committee since 2009, he has contributed to the advancement of industrial measurement technologies, particularly in measurement of flow velocity field in electrolytic aluminum. His leadership roles in organizing major international conferences, such as the International Conference on Smart Energy and the International Academic Conference on Energy and Environment, further highlight his global impact.

🏆Academic Cites

Prof. Deng’s research has been widely cited in leading international journals, including Energy Conversion and Management and Expert Systems with Applications, demonstrating the significance of his work in the scientific community. His pioneering research in measurement of flow velocity field in electrolytic aluminum has been instrumental in improving the efficiency and sustainability of electrolytic aluminum production. His extensive list of citations reflects his contribution to both theoretical advancements and practical applications in industrial energy conservation.

🌟 Legacy and Future Contributions

Prof. Deng’s legacy lies in his continuous efforts to bridge the gap between research and industrial application. His leadership in the development of key laboratories, such as the National-Local Joint Engineering Research Center on Intelligent Management Technologies for Integrated Energy Efficiency, has created new opportunities for innovation in industrial energy management. Moving forward, he aims to further enhance intelligent control technologies and energy-saving strategies to support sustainable industrial development. His future contributions are expected to expand the applications of advanced control systems in various industrial processes, ensuring a lasting impact on energy efficiency and smart manufacturing.

📝Measurement of Flow Velocity Field in Electrolytic Aluminum

Prof. Dr. Shengxiang Deng’s groundbreaking research in measurement of flow velocity field in electrolytic aluminum has significantly improved the energy efficiency of aluminum electrolysis. His innovative methods in measurement of flow velocity field in electrolytic aluminum have set new industry standards, providing more accurate and reliable process monitoring. His continued focus on measurement of flow velocity field in electrolytic aluminum ensures that his work will remain influential in advancing industrial energy-saving technologies.

Notable Publication

📝In-depth understanding the pyrolysis behavior of arginine: Combined experiments, ReaxFF molecular dynamics and DFT calculation study

Authors: Z. Wang, Ziqi; J. Shen, Jun; X. Liu, Xuesong; H. Zhang, Hai; Y. Guo, Yun

Journal: Fuel

Year: 2025

Citations: 1

📝Theoretical Study on the Formation Mechanism of NOx Precursors During the Pyrolysis of 2,4-Imidazolinediketone

Authors: Z. Wang, Ziqi; J. Shen, Jun; X. Liu, Xuesong; T. Wu, Tao; H. Zhang, Hai

Journal: Combustion Science and Technology

Year: 2025

Citations: 0

📝A review on high-value development and utilization of unconventional methane-containing gaseous fuel resources

Authors: L. Qiu, Lipei; S. Wang, Sha; B. Hu, Bin; X. Ge, Xiang; B. Chen, Bin

Journal: Energy Conversion and Management

Year: 2024

Citations: 2

📝Numerical Simulation and Test Analysis of Flow Field in an Aluminum Electrolytic Cell with Graphitized Cathode Carbon Block

Authors: T. Xing, Tao; S. Deng, Shengxiang

Journal: JOM

Year: 2024

Citations: 0

📝Theoretical study on the effect of H2O on the formation mechanism of NOx precursors during indole pyrolysis

Authors: Z. Wang, Ziqi; J. Shen, Jun; X. Liu, Xuesong; H. Zhang, Hai; Y. Guo, Yun

Journal: Frontiers of Chemical Science and Engineering

Year: 2024

Citations: 0

Lin Ma – Geophysical Fluid Dynamics – Best Researcher Award

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Ms. Lin Ma - Geophysical Fluid Dynamics - Best Researcher Award 

Capital Normal University - China

Author Profile

Scopus

🎓 Early Academic Pursuits

Ms. Lin Ma embarked on her academic journey with a strong foundation in applied mathematics, earning her Bachelor of Science degree from Harbin Normal University in 2017. Her dedication to mathematical sciences led her to pursue a Master of Science in Applied Mathematics at Capital Normal University under the guidance of Prof. Quansen Jiu. Excelling in her studies, she continued her academic path and is currently a PhD candidate at the School of Mathematical Science, Capital Normal University, where she remains under Prof. Jiu’s supervision. Her academic achievements reflect her commitment to excellence, as evidenced by her multiple first-class study scholarships and recognition as an excellent student.

💼 Professional Endeavors

Ms. Lin Ma has demonstrated a deep commitment to both research and education. Since 2020, she has served as a Teaching Assistant for Advanced Mathematics and Linear Algebra, supporting students in mastering fundamental mathematical concepts. Her experience as an educator has further strengthened her analytical and problem-solving skills, which are crucial in her research. Through her academic and professional endeavors, she has established herself as a promising scholar in applied mathematics.

🔬 Contributions and Research Focus

Ms. Lin Ma's research focuses on fundamental mathematical models in Geophysical Fluid Dynamics, including primitive equations, hydrostatic Euler equations, compressible Navier-Stokes equations, and incompressible Navier-Stokes equations. Her work contributes to the understanding of fluid flow behavior in geophysical and atmospheric contexts, providing valuable insights into large-scale environmental systems. The mathematical modeling and analysis of these equations are crucial for predicting weather patterns, ocean currents, and climate dynamics.

🌍 Impact and Influence

Through her rigorous research, Ms. Lin Ma has made meaningful contributions to Geophysical Fluid Dynamics, an essential field in applied mathematics. Her findings contribute to the theoretical foundation necessary for solving complex fluid dynamics problems related to atmospheric and oceanic phenomena. As a recipient of multiple academic awards, her influence extends beyond her research, inspiring fellow students and emerging scholars.

🏆Academic Cites

Ms. Lin Ma's research in Geophysical Fluid Dynamics is expected to gain substantial recognition as she continues to publish her work in esteemed academic journals. Her focus on complex mathematical equations and fluid mechanics has positioned her as a valuable contributor to the scientific community. With an increasing number of citations, her work serves as a reference for researchers aiming to expand on mathematical models governing geophysical fluid behavior.

🌟 Legacy and Future Contributions

Looking forward, Ms. Lin Ma aims to further refine mathematical models in Geophysical Fluid Dynamics, enhancing their applicability in real-world scenarios such as climate modeling and weather prediction. Her dedication to advancing mathematical theory and her passion for teaching position her as a future leader in applied mathematics. As she continues her research and academic contributions, her legacy will be defined by her impact on both the scientific community and future generations of mathematicians.

📝Notable Publication

📝Global Weak Solutions of Compressible Navier-Stokes-Landau-Lifshitz-Maxwell Equations for Quantum Fluids in Dimension Three

Authors: Q. Jiu, Quansen; L. Ma, Lin

Journal: Acta Mathematica Scientia

Year: 2023

Citations: 1