Sathish Panneer Selvam | Theoretical Advances | Best Scholar Award

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Dr. Sathish Panneer Selvam | Theoretical Advances | Best Scholar Award

Assistant Professor at Gachon university | South Korea

Dr. Sathish Panneer Selvam is a dynamic Assistant Professor at Gachon University, South Korea, specializing in electrochemical biosensors, nanomaterials, and density functional theory (DFT). With a strong foundation in experimental chemistry and computational modeling, Dr. Selvam’s interdisciplinary research bridges the gap between biomedical diagnostics and renewable energy catalysis, contributing significantly to next-generation sensor technologies.

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🎓 Early Academic Pursuits

Dr. Selvam began his academic journey with a Master’s degree in Electrochemical Sensing and Water Splitting under Prof. Kyusik Yun, where he focused on DNA-based nanomaterials and self-assembled sensors. He pursued his PhD (2020–2024) under Prof. Sungbo Cho, contributing to sensor development for disease diagnostics and reaction mechanism analysis via DFT. This formative period laid the groundwork for his future breakthroughs in smart diagnostics.

💼 Professional Endeavors

Starting as a Quality Control Executive at Biocon Biopharmaceutical Ltd., Dr. Selvam transitioned seamlessly into academia. His current role as an Assistant Professor (2024–2025) at Gachon University involves leading advanced biosensing projects, such as cancer diagnostics, enzyme activity detection, and nanocomposite development. His hands-on expertise spans fabrication, characterization, and computational modeling.

🔬 Contributions and Research Focus

Dr. Selvam’s research is distinguished by its interdisciplinary depth and real-world relevance. He has designed single-atom catalyst biosensors for detecting pancreatic and breast cancer. Additionally, he has explored molecularly imprinted polymers for biomarker detection and utilized DFT and molecular dynamics to simulate reaction pathways. His development of triboelectric nanogenerators for self-powered bacterial detection reflects his ability to address critical challenges in medical diagnostics, environmental monitoring, and energy applications.

🌍 Impact and Influence

Dr. Selvam has authored 16+ peer-reviewed publications, many in high-impact journals such as Chemical Engineering Journal, Small Methods, and Biosensors and Bioelectronics, with impact factors ranging from 8 to 23. His contributions to cancer biosensing, H2 evolution, and COVID-19 detection have attracted international collaborations with researchers from UK, France, and India, solidifying his global influence.

📊 Academic Cites & Recognition

Dr. Selvam’s work is increasingly cited by peers in the fields of biosensors, nanotechnology, and theoretical chemistry. With several publications already gaining traction in the academic community, he is on track for significant citation growth and thought leadership in applied quantum chemistry and nanomedicine.

🧪 Research Skills

Dr. Selvam demonstrates a robust technical skill set that seamlessly bridges experimental techniques with computational modeling. He excels in electrochemical characterization using systems like Iviumstat, Biologics, and PARSTAT. His expertise in structural analysis includes SEM, TEM, XRD, EXAFS, and Raman spectroscopy. Additionally, he is proficient in High-Performance Liquid Chromatography (HPLC) and a variety of spectroscopic tools. On the theoretical side, he utilizes DFT simulations, molecular docking, and molecular dynamics, allowing for deep insights into complex reaction mechanisms.

🎓 Teaching Experience

As an Assistant Professor, Dr. Selvam is engaged in mentoring undergraduate and graduate students. He fosters a research-driven learning environment that encourages critical thinking, scientific writing, and interdisciplinary collaboration, essential for shaping future scientists.

🌟Patents

Dr. Selvam holds several patents, including the Chalcogenide Loaded Cobalt MOF for Patulin Mycotoxin Detection (KR Patent 10-2437215), an Electrochemical Biosensing Platform for Rheumatoid Arthritis Biomarker detection (KR Patent 10-2381031), and a Nanocomposite modified electrode for Etidronic acid detection (KR Patent 10-2475238), co-authored with Sungbo Cho and Kyusik Yun. These innovations demonstrate his expertise in biosensing, electrochemical platforms, and biomarker detection.

📘 Legacy and Future Contributions

Dr. Selvam has a strong portfolio of patents, a growing reputation in academic publishing, and a unique ability to synthesize experimental and computational insights. As a thought leader in smart biosensing and energy catalysis, his future contributions are expected to include the development of scalable diagnostic tools for global health, AI-integrated sensor platforms, and further exploration of quantum chemistry for bio-interfaces. His work promises significant advances in both healthcare and energy solutions.

Publications Top Notes

EXAFS and spectroscopic insights into Mn, Tc, and Re-doped phthalocyanines: A multifaceted DFT study of electronic and optical properties

  • Authors: Sathish Panneer Selvam, Zeeshan, Sungbo Cho
    Journal: Surfaces and Interfaces
    Year: 2025

Cerium single atom anchored silver selenide: A high-performance catalyst for hydrogen evolution reaction with ultra-low activation energy and enhanced stability

  • Authors: Sathish Panneer Selvam, Sungbo Cho
    Journal: Surfaces and Interfaces
    Year: 2024

Experimental insights and DFT analysis of metal-free DNA nanocatalyst with enhanced hydrogen evolution via phosphate-mediated proton acceptance

  • Authors: Sathish Panneer Selvam, Shanmugasundaram Kamalakannan, K. Rudharachari Maiyelvaganan, Muthuramalingam Prakash, Sivalingam Gopi, Hansa Mahajan, Kyusik Yun, Sungbo Cho
    Journal: International Journal of Hydrogen Energy
    Year: 2024

Highly Synergistic Co3+ and Pyridinic‐N‐Rich Bifunctional Electrocatalyst for Ultra‐Low Energy-Driven Effective Hydrogen Production and Urea Oxidation

  • Authors: Sathish Panneer Selvam, Sungbo Cho
    Journal: Advanced Sustainable Systems
    Year: 2022

Novel SeS2-loaded Co MOF with Au@PANI comprised electroanalytical molecularly imprinted polymer-based disposable sensor for patulin mycotoxin

  • Authors: Sathish Panneer Selvam
    Journal: Biosensors and Bioelectronics
    Year: 2021

 

Changjun Chen | Experimental methods | Best Researcher Award

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Prof. Changjun Chen | Experimental methods | Best Researcher Award

Director at Soochow University | China

Prof. Changjun Chen is a renowned expert in laser materials processing and holds a professorship at the Laser Processing Research Center, School of Mechanical and Electric Engineering, Soochow University, Suzhou, China. He is also the Secretary General of both the Laser Industry Alliance of G60 S&T Innovation Valley of Yangtze River and the Jiangsu Province Laser Innovation. Prof. Chen’s research spans a variety of cutting-edge applications, particularly in laser welding, laser metal deposition, laser-assisted material removal, and surface modification. He has significantly contributed to the development of new techniques in these areas that are pivotal for industrial applications, especially in aerospace, automotive, and energy sectors.

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📚 Early Academic Pursuits

Prof. Chen began his academic journey by obtaining his Bachelor’s degree (BE) in 2000 from Northeastern University in Shenyang, China. He further advanced his education by earning a Ph.D. in 2007 from the Institute of Metal Research, Chinese Academy of Sciences, specializing in materials science. His early academic pursuits laid a strong foundation for his later contributions to laser processing and materials science.

💼 Professional Endeavors

Prof. Chen’s professional career began in 2007 when he joined Wuhan University of Science and Technology, where he served as an associate professor until 2011. His career took a major leap when he joined Soochow University in 2011, attaining the title of Professor. His academic journey also includes a significant research visit to Columbia University in 2013-2014, supported by the China Scholarship Council. This international exposure has allowed him to collaborate and interact with leading researchers across the globe.

🔬 Contributions and Research Focus

Prof. Chen’s research is focused on laser materials processing and its industrial applications. His group explores a range of cutting-edge topics, including:

  • Laser Metal Deposition: Particularly for superalloys and high-strength steels like high-speed steel, which are essential for both remanufacturing and manufacturing processes.

  • Laser-Forming of Metallic Foam: For applications in aerospace and automotive industries, focusing on shock absorption, weight reduction, and sustainability.

  • Laser Cladding for Gas Turbines: Optimizing superalloys for use in extreme environments.

  • Laser Welding/Sealing of Glass to Metal/Alloy: A highly specialized area of industrial processing.

His group’s novel experimental setups, combined with materials characterization and theoretical/numerical models, aim to improve quality and productivity in manufacturing processes.

🌍 Impact and Influence

Prof. Chen’s work has had a profound impact on both academia and industry. His research in laser processing has directly contributed to increased productivity, improved quality, and enhanced efficiency in manufacturing and remanufacturing industries. Prof. Chen’s involvement in laser innovation not only benefits industrial applications but also supports sustainable practices, notably through the development of metal foams for weight reduction in transportation and aerospace sectors.

📑 Academic Cites

With over 200 peer-reviewed papers published, Prof. Chen’s work is highly regarded in the scientific community. His contributions have earned him significant recognition, with over 100 of these papers cited in SCI-indexed journals. His publications reflect his deep expertise in materials science and laser processing technology.

🛠️ Research Skills

Prof. Chen’s research is characterized by his innovative approach to laser material interactions, which involves a balance of theoretical investigation and hands-on experimentation. His skills in materials characterization, numerical simulations, and process optimization have enabled him to make significant advancements in laser welding, cladding, and deposition processes. Furthermore, his expertise in foam shaping via laser forming has contributed to the development of sustainable manufacturing techniques for industries like automotive and aerospace.

🏅 Teaching Experience

In addition to his research, Prof. Chen has a long history of mentoring students and professionals in the field of materials science and laser processing. As a professor at Soochow University, he has played a pivotal role in shaping the careers of countless graduate and post-graduate students. His teaching style emphasizes the integration of theoretical knowledge with practical application, ensuring that his students are well-prepared for careers in both academia and industry.

🌱 Legacy and Future Contributions

Prof. Chen’s work has laid a solid foundation for future advancements in laser processing technologies. His contributions to sustainable manufacturing through laser-assisted foam shaping and metal deposition are expected to shape the future of the aerospace, automotive, and energy industries. His research group continues to push the boundaries of what is possible in laser-based manufacturing, and his global collaborations ensure that his influence will continue to grow, benefiting industries worldwide.

Publications Top Notes

Effect of composite adding Ta and Mo on microstructure and properties of W-Mo-Cr high-speed steel prepared by laser metal deposition

  • Authors: M. Zhang, C. Chen (Changjun)
    Journal: Applied Physics A: Materials Science and Processing
    Year: 2025

The influence of anodization on laser transmission welding between high borosilicate glass and TC4 titanium alloy

  • Authors: L. Li (Lei), C. Chen (Changjun), C. Li (Chunlei), C. Tian (Chen), W. Zhang (Wei)
    Journal: Optics and Laser Technology
    Year: 2025

Effect of High-Temperature Oxidation on Laser Transmission Welding of High Borosilicate Glass and TC4 Titanium Alloy

  • Authors: M. Xu (Mengxuan), C. Chen (Changjun), J. Shao (Jiaqi), M. Zhang (Min), W. Zhang (Wei)
    Journal: Journal of Materials Engineering and Performance
    Year: 2025

Comparative Study of the Effects of Different Surface States During the Laser Sealing of 304 Steel/High-Alumina Glass

  • Authors: C. Chen (Changjun), B. Bao (Bei), J. Shao (Jiaqi), M. Zhang (Min), H. Liu (Haodong)
    Journal: Coatings
    Year: 2025

Effects of Different Surface Treatment Methods on Laser Welding of Aluminum Alloy and Glass

  • Authors: C. Chen (Changjun), L. Li (Lei), M. Zhang (Min), W. Zhang (Wei)
    Journal: Coatings
    Year: 2024

 

Dong Wang | Experimental methods | Best Researcher Award

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Mr. Dong Wang | Experimental methods | Best Researcher Award

Professor at Shandong University of Technology | China

Wang Dong, is a highly accomplished academic and researcher. He currently serves as a professor at the School of Materials Science and Engineering at Shandong University of Technology. Wang Dong is also a doctoral supervisor and holds several key positions, including Secretary of the Party Branch of the Engineering Ceramics Research Institute, Vice President, and Vice President of Science and Technology at Shandong Sina New Material Technology Co., Ltd. He is the leader of the “Youth Innovation Team Plan” of Shandong University of Higher Learning. His academic journey is supported by his extensive publications, research, and contributions to materials science, especially in energy storage devices and functional materials.

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Early Academic Pursuits 🎓

Wang Dong began his academic journey at Harbin Institute of Technology (HIT), where he completed his Bachelor’s degree in 2011, followed by a Master’s degree in 2013. Afterward, he earned his Doctoral degree at HIT in 2018. During his time at HIT, his passion for materials science and energy storage materials began to take root, which shaped his career direction.

Professional Endeavors 💼

In 2018, Wang Dong took on the role of Professor and Ph.D. Supervisor at Shandong University of Technology, where he currently oversees a dynamic research team. Apart from his academic duties, he is actively involved in various industry collaborations, such as his leadership role at Shandong Sina New Material Technology Co., Ltd. Wang’s involvement in science and technology extends to presiding over projects funded by significant national and provincial funds, including the National Natural Science Foundation and Shandong Province Natural Science Fund.

Contributions and Research Focus 🔬

Wang Dong’s research areas focus on the development of energy storage devices and key materials, with an emphasis on functional inorganic non-metallic materials. His expertise covers materials science, nanomaterials, capacitive deionization, and electrochemical storage, particularly in the context of lithium-ion batteries and electrode materials. Wang has successfully led seven science and technology projects and published 28 SCI papers as the first or corresponding author. His work has contributed to innovative breakthroughs in high-performance energy storage technologies, including developing novel anode materials and advanced nano-architectures.

Impact and Influence 🌍

Wang Dong has made a significant impact in both academic circles and industrial applications. His research on energy storage materials has not only advanced scientific understanding but also influenced the development of practical solutions in the energy sector. With eight invention patents to his name, Wang’s work directly supports technological advancements that can lead to sustainable solutions in energy storage and environmental conservation.

Academic Citations 📑

Wang Dong’s publications have garnered widespread recognition. His research articles are highly cited across multiple academic journals, particularly in the fields of materials science, nanotechnology, and energy storage systems. His publications in high-impact journals such as Nano Research, Rare Metals, and Journal of Colloid and Interface Science have contributed significantly to advancing the scientific community’s understanding of nanomaterials and their applications in energy storage.

Research Skills and Expertise 🔧

Wang Dong is recognized for his exceptional research skills in material synthesis, characterization techniques, and innovative design of nano-materials. His approach combines both theoretical modeling and experimental research to explore new materials and their applications. His hands-on expertise in nano-engineering, structural regulation, and electrochemical testing has earned him respect among peers and established his reputation as a leader in his field.

Teaching Experience 📚

As a Ph.D. supervisor, Wang Dong has contributed significantly to the academic growth of his students, fostering the development of the next generation of scientists. He has mentored numerous graduate students and researchers, guiding them through complex projects in materials science and energy storage. His teaching philosophy emphasizes critical thinking, innovation, and hands-on learning, providing students with a comprehensive understanding of both fundamental principles and cutting-edge technologies.

Awards and Honors 🏆

Throughout his career, Wang Dong has earned numerous accolades for his scientific achievements and contributions to the field of materials science. These include recognition for his patent filings, research excellence, and leadership roles in high-profile projects. His academic and industry achievements have earned him several awards, including honors from both Shandong University of Technology and national scientific bodies.

Legacy and Future Contributions 🔮

Wang Dong’s future research endeavors are poised to make significant contributions to the sustainable development of energy storage technologies. His ongoing work promises to lead to innovations that can address global energy challenges, contributing to green technologies and climate change mitigation. As he continues to lead research teams and mentor future scientists, his legacy in materials science will inspire further breakthroughs in nanotechnology and renewable energy solutions.

Publications Top Notes

Photovoltaic waste silicon powder-engaged construction of silicon/graphite nanosheet/carbon composite microspheres for lithium-ion batteries anodes

  • Authors: Y. Li, D. Wang, X. Wang, D. Wang, G. Wen
    Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects
    Year: 2025

Application of carbon-based MOF derived Fe/C composites toward excellent microwave absorption

  • Authors: X. Xu, X. Li, H. Yang, X. Huang, R. Zhang, D. Wang, G. Wen
    Journal: Materials Science and Engineering B
    Year: 2025

Electrical discharge machinable intra/inter type B4C composites with enhanced mechanical properties by two-step reactive spark plasma sintering

  • Authors: Y. Zhang, X. Huang, D. Wang, X. Ma, S. Ran
    Journal: Journal of the European Ceramic Society
    Year: 2025

Unraveling the chloride ion capture capability of nitrogen-doped porous carbon for capacitive deionization and desalination battery

  • Authors: H. Yang, R. Zhang, Z. Liu, G. Wen, D. Wang
    Journal: Chemical Engineering Journal
    Year: 2024

Multi-dimensional, multi-interface Fe3C/carbon sheets/carbon tubes nanoarchitecture towards high-performance microwave absorption

  • Authors: X. Xu, R. Zhang, X. Li, X. Huang, G. Wen, D. Wang
    Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects
    Year: 2024

 

 

Muhammad Yar Khan | Computational Methods | Best Researcher Award

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Assoc. Prof. Dr. Muhammad Yar Khan | Computational Methods | Best Researcher Award

Associate Professor at Qilu institute of Technology | China

Dr. Hafiz Muhammad Yar Khan is an accomplished Materials Scientist and Associate Professor in Physics, with an extensive background in Density Functional Theory (DFT) Materials Modeling. He completed his Ph.D. in Materials Science Engineering at Zhejiang University, China (2023), which is ranked 41st in the QS World University Rankings (2022). His research is focused on novel 2D materials, energy storage materials, and the optical and magnetic properties of advanced materials, with significant contributions to the fields of spintronics, energy storage, and 2D magnetic materials.

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Early Academic Pursuits 🎓

Dr. Khan’s academic journey began with a Master of Science in Physics (M. Phil) from Hazara University Mansehra, Pakistan, in 2011, where he developed his passion for solid-state physics and computational material science. His dissertation focused on the first-principles study of perovskite-type oxides, laying the foundation for his later work in computational materials research. His focus on quantum mechanics, electrodynamics, and applied research techniques during his M.S. equipped him with a solid theoretical and experimental base.

Professional Endeavors 💼

Dr. Khan has held various teaching and administrative roles across prominent institutions in both Pakistan and China. His career includes serving as Lecturer in Physics at Kohat University of Science and Technology and The University of Haripur, Pakistan. His current position as Associate Professor at Qilu Institute of Technology, China, reflects his rising prominence in academia. Dr. Khan has also contributed to academic committees, such as being a member of the Academic Council at Kohat University and organizing events like sports day and international cultural day, showing his leadership in academic and extracurricular spheres.

Contributions and Research Focus 🔬

Dr. Khan’s research spans several cutting-edge areas in materials science. His Ph.D. dissertation on “First-Principles Study of Tuning Magnetic and Optical Properties of Novel 2D-Materials” focuses on materials such as transition metal carbon trichalcogenides and 2D magnetic materials. He has also explored energy storage technologies, such as Na and Li-ion batteries, providing insights into anode and cathode materials. His work also delves into optoelectronics and spintronics devices, underscoring his interdisciplinary approach.

Notable research topics include:

  • Magnetic and optical properties of 2D materials.

  • Energy storage materials (batteries, cathodes, and anodes).

  • Spintronics and optoelectronics for device applications.

Impact and Influence 🌍

Dr. Khan’s research has had significant implications in both academia and industry, especially in 2D materials and energy storage technologies. His publications in prestigious journals like Journal of Superconductivity and Novel Magnetism, Physics Letter A, and Nanoscale demonstrate his ability to contribute to high-impact research. His work is highly regarded in the scientific community, and he has collaborated with leading universities and institutions such as the New Jersey Institute of Technology (NJIT), Quaid-i-Azam University, University of Ulsan, and King Saud University.

His influence extends beyond materials science into academic collaboration, where he serves as a bridge between global research hubs in Pakistan, China, South Korea, and Saudi Arabia.

Research Skills 🧠

Dr. Khan is proficient in various computational software critical to materials science research, including:

  • WIEN2K

  • VASP

  • FLAPW

His ability to independently formulate research questions, conduct empirical research, and analyze data systematically has been key to his success. His first-principles approach has made him a leading figure in DFT-based materials modeling and theoretical materials science.

Teaching Experience 🍎

Dr. Khan has taught a variety of physics courses at undergraduate and postgraduate levels. He has mentored students in subjects such as Quantum Mechanics, Solid-State Physics, and Electrodynamics. He has also demonstrated his administrative skills in his role as Assistant Manager ORIC and member of the departmental admission committee, helping shape the academic landscape at institutions like Kohat University of Science and Technology and The University of Haripur. His teaching philosophy emphasizes the importance of research-driven education, encouraging students to engage with cutting-edge topics in material science and computational physics.

Awards and Honors 🏅

Dr. Khan has been recognized for his academic achievements with prestigious scholarships and fellowships, including:

  • Chinese Government Scholarship for his Ph.D. studies.

  • Brain Korea 21 (BK21) Fellowship by the Korean Government.

  • Pioneer Research Center Program through the National Research Foundation of Korea.

These awards underscore his commitment to academic excellence and his ability to secure competitive funding for his research endeavors.

Legacy and Future Contributions 🌟

Dr. Khan’s legacy is built on a solid foundation of innovative research, interdisciplinary collaborations, and a commitment to teaching. His future contributions are poised to make an impact not only in materials science but also in the energy sector, with further exploration into battery technologies, spintronics, and 2D materials. His ongoing work on defect-engineered materials and multiferroic hetero-structures is expected to push the boundaries of materials science in the coming years.

Publications Top Notes

“Computational insights into optoelectronic and magnetic properties of V(III)-doped GaN”

  • Authors: Muhammad Sheraz Khan, Muhammad Ikram, Li-Jie Shi, Bingsuo Zou, Hamid Ullah, Muhammad Yar Khan
    Journal: Journal of Solid-State Chemistry
    Year: 2021

“A highly selective nickel-aluminum layered double hydroxide nanostructures based electrochemical sensor for detection of pentachlorophenol”

  • Authors: Khan, Mir Mehran, Huma Shaikh, Abdullah Al Souwaileh, Muhammad Yar Khan, Madeeha Batool, Saima Q. Memon, and Amber R. Solangi
    Journal: Arabian Journal of Chemistry
    Year: 2024

“Exploring the structural stability of 1T-PdO2 and the Interface Properties of 1T-PdO2/Graphene Heterojunction”

  • Authors: Muhammad Yar Khan, Arzoo Hassan, Xiao-Qing Kelvin Tian, Abdus Samad
    Journal: ACS OMEGA
    Year: 2024

“Experimental Investigation of the Structural, Electrical, and Magnetic Properties of AgNbO3 Silver Nanobytes”

  • Authors: Junaid Khan, Shah Khalid, Pagunda3, Farhan Ahmad, Abdul Jabbar5, Rabah Khenata, Muhammad Yar Khan, and Heba G. Mohamed
    Journal: Journal of Materials Science

“Fabrication of nanofiltration membrane with enhanced water permeability and dyes removal efficiency using tetramethyl thiourea-doped reduced graphene oxide”

  • Authors: Sehrish Qazi, Huma Shaikh, Amber R. Solangi, Madeeha Batool, Muhammad Yar Khan, Nawal D. Alqarni, Sarah Alharthi, and Nora Hamad Al-Shaalan
    Journal: Journal of Materials Science

Aleksandr Sipatov | Experimental methods | Best Researcher Award

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Prof. Aleksandr Sipatov | Experimental methods | Best Researcher Award

Professor at National Technical Univercity “Kharkiv Polytechnic Institute” | Ukraine

Dr. Alexander Yurievich Sipatov is a distinguished Professor in the Metal and Semiconductor Physics Department at the National Technical University “Kharkov Polytechnic Institute” (KPI), Ukraine. Born on March 21, 1957, in Nizhny Novgorod, Russia, Dr. Sipatov has had a long and illustrious career spanning over several decades in the field of semiconductor physics and nanostructures. His work has made notable contributions to the development of quantum effects and the exploration of superconductivity and thermoelectric properties in semiconductor multilayer nanostructures.

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Early Academic Pursuits 🎓

Dr. Sipatov’s academic journey began at the National Technical University “Kharkov Polytechnic Institute” (KPI), where he earned his Engineer-Physicist degree in 1980. He pursued postgraduate studies at KPI, completing his Ph.D. in 1986 and later achieving the title of Doctor of Science in 2007. Between 1995 and 1998, Dr. Sipatov was awarded a Postdoctoral stipend to further hone his expertise and research skills. His academic achievements laid the foundation for a highly successful career in semiconductor physics.

Professional Endeavors 💼

Dr. Sipatov’s professional career at KPI began in 1980 as an Engineer, and his role rapidly evolved over the years. He served as a Junior Researcher from 1983 to 1990, a Researcher from 1990 to 1992, and as a Senior Researcher from 1992 to 1995 and 1998 to 2007. His increasing responsibilities and leadership roles included becoming a Leading Researcher from 2007 to 2012 and the Head of the Technical Cryophysics Department at KPI from 2012 to 2020. Since 2020, he has held the position of Professor at KPI, where he continues to contribute significantly to both teaching and research.

Contributions and Research Focus 🔬

Dr. Sipatov’s research focuses on the growth, structure, and electronic, optic, magnetic, and thermoelectric properties of semiconductor multilayer nanostructures, particularly chalcogenides of elements such as lead (Pb), tin (Sn), bismuth (Bi), europium (Eu), and ytterbium (Yb). His studies have led to several groundbreaking discoveries, including:

  1. Energy Spectrum Quantization in thin films, notably in PbS films and PbS-EuS superlattices, identified by shifts in the photoluminescence edge.
  2. Resonant Tunneling phenomena observed through negative differential resistance in PbS-EuS double barrier tunneling structures.
  3. The discovery of superconductivity in IV-VI superlattices, with Tc values between 3-6 K.

Currently, Dr. Sipatov is investigating the thermoelectric and magnetic properties of semiconductor thin films and nanostructures, which have important applications in energy efficiency and advanced electronics.

Impact and Influence 🌍

Dr. Sipatov’s work has had a profound impact on quantum physics and the field of nanostructures. His findings have broadened the understanding of quantum effects in semiconductors, contributing to advances in quantum technologies and low-temperature physics. Furthermore, his contributions to superconductivity have opened up new avenues for research in quantum computing and energy-efficient technologies. The interdisciplinary nature of his work positions him as a key figure in nanoscience, with direct implications for industries ranging from electronics to energy storage.

Academic Cites 📚

Dr. Sipatov is a highly published researcher with more than 60 publications in peer-reviewed journals, showcasing his dedication to advancing scientific knowledge. His work is indexed in Scopus (ID: 7004596183), highlighting his significant influence and recognition in the scientific community. His research continues to be cited by scholars worldwide, cementing his reputation as a thought leader in semiconductor physics and nanotechnology.

Research Skills 🔧

Dr. Sipatov possesses a broad range of specialized research skills, including:

  • Material Synthesis and Growth of semiconductor multilayer nanostructures.
  • Expertise in quantum effects such as energy spectrum quantization and resonant tunneling.
  • Advanced techniques for studying superconductivity and the magnetic properties of semiconductor materials.
  • Deep understanding of thermoelectric phenomena and their practical applications.

His expertise in low-temperature physics and nanoelectronics places him at the cutting edge of research in these fields.

Teaching Experience 📖

As a Professor at KPI, Dr. Sipatov has dedicated a significant portion of his career to teaching and mentoring the next generation of scientists and engineers. His leadership as the Head of the Technical Cryophysics Department between 2012 and 2020 provided an invaluable platform for the development of young researchers in the field of semiconductor physics. Through his courses and research supervision, Dr. Sipatov has influenced countless students, shaping the future of material science and nanotechnology.

Legacy and Future Contributions 🔮

Dr. Sipatov’s research legacy lies in his innovative contributions to the understanding of quantum effects in semiconductor nanostructures and superconductivity. His work on thermoelectric and magnetic properties holds the potential to revolutionize energy-efficient technologies and next-generation electronics. Moving forward, his future contributions are likely to focus on advanced materials for quantum computing and renewable energy solutions, continuing to drive progress in sustainable technologies and nanoscience.

Publications Top Notes

Interdiffusion in chalcogenide semiconductor superlattice nanostructures

  • Authors: A.Y. Sipatov, L.E. Konotopsky, E. Moroz, V.V. Volobuev
    Journal: Solid State Communications
    Year: 2025

Quantum interference phenomena and electron – electron interaction in topological insulator Bi2Se3 thin polycrystalline films

  • Authors: O.I. Rogachova, O. Pavlosiuk, A.V. Meriuts, K.V. Novak, D. Kaczorowski
    Journal: Thin Solid Films
    Year: 2022

Growth mechanism, structure and thermoelectric properties of thermally evaporated Bi2(Te0.9 Se01)3 thin films

  • Authors: O.I. Rogachova, S. Kryvonohov, A.G. Fedorov, O.N. Nashchekina, K.V. Novak
    Journal: Functional Materials
    Year: 2022

Effect of aging on thermoelectric properties of the Bi2Te3 polycrystals and thin films

  • Authors: O.I. Rogachova, K.V. Novak, A.N. Doroshenko, T.I. Khramova, S.A. Saenko
    Journal: Functional Materials
    Year: 2021

Size effects and thermoelectric properties of Bi0.98Sb0.02 thin films

  • Authors: O.I. Rogachova, K.V. Novak, D.S. Orlova, O.N. Nashchekina, G.V. Lisachuk
    Journal: Journal of Thermoelectricity
    Year: 2020

 

Faisal faiz | Experimental methods | Physics Industry Leadership Award

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Dr. Faisal faiz | Experimental methods | Physics Industry Leadership Award

Assistant Professor at Shenzhen university | China

Dr. Faisal Faiz is a dedicated nanotechnologist and Research Fellow at the College of Electronics and Information Engineering, Shenzhen University, Guangdong, China. With a robust academic background, he holds a Ph.D. in Analytical Chemistry from Nanjing University, China. His thesis focused on the synthesis of nanomagnetic materials for speciation analysis of heavy toxic metals in environmental water. His work, especially in functionalized nanomaterials for environmental applications, has positioned him as a key contributor to the nanotechnology and environmental science fields.

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Early Academic Pursuits 📚

Dr. Faiz’s academic journey began with a Bachelor’s degree in Chemistry, Physics, and Mathematics from Bahauddin Zakariya University, Pakistan, followed by a Master’s in Applied Chemistry from the University of Engineering and Technology, Lahore. His keen interest in research led him to pursue an M.Phil. in Applied Chemistry at Bahauddin Zakariya University. These foundational studies laid the groundwork for his doctoral work at Nanjing University, where he explored innovative approaches in nanomaterial synthesis and heavy metal pollutant detection.

Professional Endeavors 🧑‍🔬

Dr. Faiz has had a diverse career spanning several research institutions and teaching roles. His professional journey includes a Postdoctoral Research Scholar position at Shenzhen University, where he continues his pioneering research on nanomaterials and environmental sustainability. Prior to this, he worked as a Research Assistant at the Pakistan Institute of Nuclear Science & Technology and a Senior Lecturer at Allama Iqbal Open University. These roles have allowed Dr. Faiz to hone his research skills while contributing to environmental monitoring, sustainable technology, and energy applications.

Contributions and Research Focus 🔬

Dr. Faiz’s primary research focus is on the development of functionalized nanomaterials to address environmental challenges. His research spans three core areas:

  • Environmental Applications of Nanomaterials 🌍: He explores metal oxides and magnetic nanoparticles to create efficient sensors and advanced systems for detecting toxic gases and pollutants in air and water. His work is focused on real-time environmental monitoring, essential for ecological sustainability and public health.

  • Advanced Sensing Technologies ⚡: Dr. Faiz is advancing the development of MEMS-based gas sensors using inkjet printing technology. His efforts aim to improve the sensitivity, speed, and affordability of sensors for detecting hazardous gases at trace levels.

  • Supercapacitors for Energy and Environmental Applications 🔋: Dr. Faiz’s work on supercapacitors involves optimizing nanomaterials like metal oxides for energy storage systems that can be utilized in renewable energy storage and energy-efficient industrial devices.

Impact and Influence 🌍

Dr. Faiz’s work has made significant contributions to environmental science, nanotechnology, and sustainable energy systems. His research into nanomaterials has led to the development of new solutions for toxic pollutant detection, environmental monitoring, and energy storage technologies. With patents and research collaborations on a national level, he is helping to drive forward the global agenda on environmental sustainability.

Academic Cites 📑

Throughout his academic career, Dr. Faiz has been widely cited in scientific literature for his work on magnetic nanoparticles, environmental remediation, and nanomaterial synthesis. His contributions to toxic metal removal from water and the development of advanced sensors have made him a respected figure in the nanotechnology community. His publications continue to inspire new research in the fields of materials science and environmental engineering.

Research Skills 🛠️

Dr. Faiz possesses a diverse skill set in various experimental techniques, including:

  • Electron Microscopy (SEM, TEM)
  • X-ray Photoelectron Spectroscopy (XPS)
  • X-ray Diffraction (XRD)
  • Electrochemical Workstation Techniques
  • Atomic Absorption Spectrometry (AAS) and High-Performance Liquid Chromatography (HPLC)

These research skills enable him to conduct cutting-edge studies in nanomaterials and environmental monitoring. His ability to integrate various analytical techniques enhances the depth of his research and helps in developing innovative solutions for environmental challenges.

Teaching Experience 🏫

Dr. Faiz has an extensive teaching background, including roles as a Senior Lecturer and Science Teacher. He has taught a range of chemistry courses and has been involved in academic administration, including being a coordinator for international students and a class representative. His teaching approach blends scientific rigor with practical applications, encouraging students to engage with cutting-edge technologies and environmental solutions.

Awards and Honors 🏅

Dr. Faiz has been recognized with several awards, including:

  • Chinese Government Scholarship for his Ph.D. studies at Nanjing University.
  • Best Postgraduate Researcher award at the Institute of Chemical Sciences, Bahauddin Zakariya University.
  • Distinguished Researcher at the Pakistan Institute of Nuclear Science & Technology.

These accolades reflect his excellence in research, contribution to scientific knowledge, and commitment to environmental sustainability.

Legacy and Future Contributions 🌱

Dr. Faiz’s work promises to leave a lasting legacy in the fields of nanotechnology and environmental science. As he continues to develop functionalized nanomaterials, his research has the potential to transform industries by offering sustainable solutions for pollution detection and energy storage. Looking forward, he aims to push the boundaries of green nanomaterials, further advancing technologies for clean energy, pollution remediation, and environmental protection.

Publications Top Notes

Innovative adsorbent for sulphur dioxide: synergy of activated carbon, polyionic liquids, and chitosan

  • Authors: A. Wahab, Abdul; A. Farooq, Amjad; F. Faiz, Faisal; J. Wu, Jianghua; Y. Faiz, Yasir
    Journal: Adsorption
    Year: 2025

Tailoring MnO2 nanowire defects with K-doping for enhanced electrochemical energy storage in aqueous supercapacitors

  • Authors: J. Wu, Jianghua; F. Faiz, Faisal; M. Ahmad, Mashkoor; X. Pan, Xiaofang; Y. Faiz, Yasir
    Journal: Applied Surface Science
    Year: 2025

Removal of gaseous methyl iodide using hexamethylenetetramine and triethylenediamine impregnated activated carbon: A comparative study

  • Authors: T. Yaqoob, M. Ahmad, A. Farooq, F. Ali, Y. Faiz, A. Shah, F. Faiz, M.A. Irshad
    Journal: Diamond and Related Materials
    Year: 2023

Tuning electrocatalytic activity of Co3O4 nanosheets using CdS nanoparticles for highly sensitive non-enzymatic cholesterol biosensor

  • Authors: H. Waleed, H.U. Rasheed, A. Nisar, A. Zafar, Y. Liu, S. Karim, Y. Yu, H. Sun
    Journal: Materials Science in Semiconductor Processing
    Year: 2024

Mesoporous Co3O4@CdS nanorods as anode for high-performance lithium-ion batteries with improved lithium storage capacity and cycle life

  • Authors: H. Waleed, H.U. Rasheed, F. Faiz, A. Zafar, S. Javed, Y. Liu, S. Karim, H. Sun
    Journal: RSC Advances
    Year: 2024

 

 

Srither SR | Experimental methods | Best Researcher Award

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Dr. Srither SR | Experimental methods | Best Researcher Award

Associate Professor at Koneru Lakshmaiah Education Foundation (KLEF) | India

Dr. SR. Srither is an accomplished Research Associate with a dynamic career spanning both India and abroad. With extensive expertise in Nanotechnology, his work focuses on energy harvesting, material synthesis, and nanocomposite development. He has contributed significantly to the advancement of piezoelectric and triboelectric technologies, with a primary focus on creating self-powered systems for flexible applications. His journey includes notable academic and professional roles across institutions such as the Southern University of Science and Technology (China) and Centre for Nano and Soft Matter Sciences (India).

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Early Academic Pursuits 📚

Dr. Srither’s academic journey began with his B.E. in Electronics and Communication from St. Joseph’s College of Engineering, Chennai, followed by an M.Tech in Nanoscience and Technology from K.S. Rangasamy College of Technology, Coimbatore, where he graduated First Class with Distinction. His thirst for knowledge led him to pursue a Ph.D. in Nanotechnology at Anna University, Chennai. His early academic interests focused on the synthesis and characterization of nanomaterials, laying the foundation for his cutting-edge research in energy storage and conversion technologies.

Professional Endeavors 💼

Dr. Srither’s career trajectory showcases his commitment to research and teaching. He currently serves as a Visiting Professor at KL Deemed to be University, where he imparts his expertise to students in the Department of Electronics and Communication Engineering. His professional experiences extend across multiple prestigious research roles, notably as a Post-doctoral Fellow at the Quantum Information & Intelligent Energy Harvesting Lab, Southern University of Science and Technology (SUSTech), Shenzhen, China. His work continues to influence nanotechnology, energy harvesting, and energy storage devices.

Contributions and Research Focus 🔬

Dr. Srither’s research focuses on nanostructures, nanocomposites, and their applications in self-powered systems. Key contributions include the fabrication of piezo/triboelectric hybrid nanogenerators that are low-cost and flexible, designed for a wide range of IoT-enabled devices and health monitoring applications. His research also includes groundbreaking work on transparent polymers for triboelectric energy harvesting and the exploration of manganese dioxide nanoparticles for energy conversion applications.

Impact and Influence 🌍

Dr. Srither has made a lasting impact on the nanotechnology field through his innovative research and interdisciplinary projects. His work on energy harvesting has revolutionized the development of wearable devices and self-powered systems, enabling sustainable technology in fields like IoT and healthcare. His research has been recognized by notable platforms, including the Ministry of Science and Technology, Govt. of India, and has been showcased through multiple publications and patents.

Academic Cites 📑

Dr. Srither’s work has been cited extensively in high-impact journals, with his research on triboelectric nanogenerators and nanocomposite materials contributing significantly to the broader field of renewable energy and flexible electronics. He has also been a frequent presenter at international conferences and symposia, where his findings continue to inspire and influence researchers worldwide.

Research Skills 🧪

Dr. Srither possesses a diverse range of experimental skills that include spin coating, spray coating, electrospinning, and spray pyrolysis, along with advanced characterization techniques like X-ray diffraction (XRD), atomic force microscopy (AFM), and UV-Vis spectroscopy. His expertise in electrochemical testing and device evaluation has been pivotal in the development of energy harvesting systems and energy storage devices.

Teaching Experience 🍎

Dr. Srither’s role as a Visiting Professor at KL Deemed to be University allows him to impart his knowledge to undergraduate and postgraduate students in Nanotechnology. He also has significant experience in practical teaching, having assisted professors in lab work, project development, and demonstrations in nanotechnology. His involvement in designing and executing exhibits has further enriched his teaching journey, preparing students for real-world applications of nanoscience and technology.

Awards and Honors 🏆

Dr. Srither’s dedication to excellence has been recognized through numerous accolades, including the Best Paper Award at the International Conference on Wireless Communication and Emerging Technologies (RAWCET 2022) for his work on a wearable single-electrode mode triboelectric nanogenerator. His innovations have also been featured on the DST website, with recognition from the Ministry of Science and Technology, Govt. of India.

Legacy and Future Contributions 🚀

Dr. Srither’s work sets the foundation for significant advancements in sustainable energy technologies and smart devices. His legacy lies in his ability to merge nanoscience with practical, real-world applications, particularly in energy harvesting and self-powered systems. Moving forward, his ongoing projects, such as motion sensing in sewage tunnels and structural health monitoring applications, promise to continue shaping the future of energy efficiency and smart infrastructure.

Publications Top Notes

High-Sensitivity Optical Fiber-Based SPR Sensor for Early Cancer Cell Detection Using Cerium Oxide and Tungsten Disulfide

  • Authors: N. Hma Salah, Nasih V. Yesudasu, Vasimalla B. Kaur, Baljinder S.R. Srither, S. R. Kumar, Santosh
    Journal: Plasmonics
    Year: 2025

SMF-based SPR sensors utilizing thallium bromide immobilization for detection of various bacterial cells

  • Authors: V. Yesudasu, Vasimalla N. Hma Salah, Nasih S. Chella, Santhosh S.R. Srither, S. R. Kumar, Santosh
    Journal: Microchemical Journal
    Year: 2025

Electrical and dielectric properties of PVA-doped NiGdxFe2-xO4 nanoferrite particles

  • Authors: N Lenin, NJ Raj, RR Kanna, P Karthikeyan, M Balasubramanian, …
    Journal: Materials Science and Engineering: B
    Year: 2024

Simple Non-Invasive Coronary Artery Disease Detection Using Machine Learning

  • Authors: S Kalpana, SR Srither, NR Dhineshbabu, G Nikitha
    Journal: 2024 4th International Conference on Innovative Practices in Technology and …
    Year: 2024

Recent advances in wearable textile-based triboelectric nanogenerators

  • Authors: S Neelakandan, SR Srither, NR Dhineshbabu, S Maloji, O Dahlsten, …
    Journal: Nanomaterials
    Year: 2024

ِAhmed Abdelhady A. Khalil | Experimental methods | Best Researcher Award

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ِDr. Ahmed Abdelhady A. Khalil | Experimental methods | Best Researcher Award

Cairo University, National Institute of Laser Enhanced Sciences | Egypt

Ahmed Abd El-Hady Abd El-Moaty Awad, also known by his scientific name Ahmed Abdelhady A. Khalil, is a highly accomplished scholar and researcher in the field of laser systems and non-linear optics. His academic background spans multiple degrees, including a B.S. in Special Physics from Cairo University, an M.Sc. in Laser Systems from the National Institute of Laser Enhanced Sciences (NILES), and a Ph.D. in Laser Systems (2024). His work focuses on materials science, photodetectors, and energy harvesting, particularly within the scope of transition metal dichalcogenides (TMDCs) and photodiodes.

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Early Academic Pursuits 📚

Ahmed’s academic journey began at Cairo University, where he completed his B.S. in Special Physics in 2006 with high honors. This early pursuit laid the foundation for his deep interest in laser science and optics. In 2010, he pursued advanced coursework for a Master’s degree and continued further studies, earning his M.Sc. in Laser Systems in 2016 from NILES, Cairo University. He later completed predoctoral courses in 2021 before obtaining his Ph.D. in 2024, marking a significant milestone in his educational journey.

Professional Endeavors 💼

Ahmed’s professional path has been closely intertwined with teaching and research. Starting as a Teaching Assistant in 2008, he worked his way up to an Assistant Lecturer by 2018, and eventually a Lecturer in 2024 at the Department of Laser Science and Interaction (LSI), NILES. His professional growth highlights his dedication to education and his ability to mentor the next generation of laser scientists. Additionally, he has contributed to the Nanophotonics Research Laboratory at the American University in Cairo under the guidance of Prof. Mohamed A. Swillam.

Contributions and Research Focus 🔬

Ahmed’s research is centered on laser systems, non-linear optics, and materials science, with particular emphasis on energy harvesting and photodetectors. His work on transition metal dichalcogenides (TMDCs) and MoS2-based photodiodes has been groundbreaking, contributing to the development of novel, fast-response photodetectors. Through his research, Ahmed seeks to advance the performance of photodetection systems, enhancing their speed and efficiency for use in modern optical technologies. His publications in international journals showcase his research in high-impact areas, such as his work on SiC/MoS2 composites and GaN/MoS2 photodiodes.

Impact and Influence 🌍

Ahmed’s work has had a significant impact on the scientific community, particularly in the fields of nanophotonics and laser technology. His research on 2D semiconductor dopants and photodiodes is influencing the future of energy-efficient devices and high-speed photodetectors. His collaborations with renowned scientists, particularly through conferences and journal publications, have helped establish him as a prominent researcher in the laser systems community. By integrating cutting-edge materials into photodetectors, his work is laying the foundation for future innovations in quantum computing and photonics.

Research Skills 🧠

Ahmed has demonstrated high-level research skills throughout his career. He is proficient in experimental techniques such as laser fabrication, thin-film deposition, and characterization of optical materials. His expertise extends to numerical simulations and optical design, making him well-versed in the computational aspects of laser systems and non-linear optics. Additionally, his ability to collaborate with interdisciplinary research groups has enhanced his versatility in applying his findings across various domains of physics and engineering.

Teaching Experience 🎓

As an educator, Ahmed has played a pivotal role in shaping the academic careers of many students in the field of laser science. His teaching experience spans over a decade, during which he has taught a wide range of undergraduate and graduate courses in laser systems and non-linear optics. He has also been involved in supervising student research projects, helping students bridge the gap between theoretical knowledge and practical application in laser technology. His commitment to academic excellence and student development is evident in his approach to innovative teaching.

Awards and Honors 🏆

Throughout his career, Ahmed has earned several awards and honors, including recognition for his outstanding research in photonics and laser systems. His publications in high-impact journals and participation in prestigious conferences are a testament to his academic achievements. His ongoing work, particularly in the TMDC photodetector domain, has garnered international attention and positions him as a leading researcher in materials science.

Legacy and Future Contributions 🚀

Ahmed’s future contributions hold the potential to further transform the field of laser systems and photodetectors. As he continues to explore innovative materials and their applications in energy-efficient technologies, his research is likely to lead to breakthrough advancements in optical communication, quantum computing, and energy harvesting. His legacy as an educator and researcher will inspire future generations of scientists and engineers, further solidifying his position as a leading figure in nanophotonics and laser research.

Publications Top Notes

Thin-film photodiode based on novel SiC/MoS2 composite by RF-sputtering for fast response photodetection

  • Authors: AAA Khalil, AM Karmalawi, AA Abdelmageed, FM EL-Sharkawy, E Mousa, …
    Journal: Optical Materials
    Year: 2024

Impact behavior of a novel GaN/MoS2 composite photodiode based thin-film by RF-sputtering for fast response photodetection application

  • Authors: AAA Khalil, AM Karmalawi, AA Abdelmageed, HAS Al-shamiri, E Mousa, …
    Journal: Optical and Quantum Electronics
    Year: 2024

Fast response fabricated MoS2-photodiode based thin film

  • Authors: AAA Khalil, AM Karmalawi, AA Abdelmageed, HAS Al-shamiri, …
    Journal: Journal of Materials Science: Materials in Electronics
    Year: 2024

Behavior effect of Semiconductor 2D dopants on time response of TMDC-MoS2 based Schottky-photodiode

  • Authors: AAA Khalil, MTH Abou Kana, MA Swillam
    Journal: 2024 Photonics North (PN)
    Year: 2024

 

 

 

Muhammad Ishaq | Experimental methods | Best Researcher Award

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Dr. Muhammad Ishaq | Experimental methods | Best Researcher Award

Shenzhen University | China

Muhammad Ishaq, Ph.D. in Semiconductor Physics and Optical Engineering, is an open-minded and adaptable researcher with a profound passion for applied research and teaching. With experience across diverse environments, he has contributed extensively to the field of solar energy technologies, including thin-film solar cells. Currently, he is an academic researcher at Shenzhen University, China. His global perspective has been honed through multiple international collaborations, notably at Huazhong University of Science and Technology and Shenzhen University.

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Early Academic Pursuits 📚

Muhammad Ishaq’s academic journey began with a Bachelor’s degree in Physics from the University of Peshawar (2012), followed by a Master’s degree in Physics from Abdul Wali Khan University, Pakistan (2016), where he focused on Titanium Dioxide Thin Film for Dye-Sensitized Solar Cells. He went on to earn his Ph.D. in Semiconductor Physics/ Optical Engineering from Huazhong University of Science and Technology, China in 2019, where he specialized in Antimony Chalcogenide Flash Evaporation for thin-film solar cell applications.

Professional Endeavors 💼

After completing his Ph.D., Dr. Ishaq furthered his academic journey with a Post-doctoral Fellowship at Shenzhen University, where he specialized in Sb-chalcogenide, CZTS/Se, and Perovskite solar cells. He is currently a Research Associate at Shenzhen University, China, in the College of Physics and Optoelectronic Engineering. His work focuses on solar energy technologies and material science, where he is driving advancements in energy efficiency.

Contributions and Research Focus 🔬

Dr. Ishaq’s research is innovative and multi-disciplinary, with a primary focus on solar energy and semiconductor physics. He is particularly interested in the development of thin-film solar cells using antimony chalcogenides, perovskites, and copper-doped antimony sulfide. His work aims to improve the efficiency and stability of solar cells by optimizing their material properties through various synthesis methods like physical vapor deposition, sol-gel processing, and chemical vapor deposition. Through this, he contributes to addressing the global energy crisis by advancing renewable energy solutions.

Impact and Influence 🌍

Dr. Ishaq has made significant contributions to the field of solar energy through his innovative research and groundbreaking work. His research has not only advanced the understanding of thin-film solar cell applications but also paved the way for creating more sustainable and cost-effective solar technologies. His work has gained recognition through numerous publications, conference presentations, and collaborations with leading experts in semiconductor physics.

Academic Citations 📚

Dr. Ishaq’s research has garnered wide recognition within the scientific community. His publications in high-impact journals like Nano-Micro Letters, Progress in Photovoltaics, and Advanced Functional Materials have earned substantial citations, making a global impact on semiconductor physics and solar energy technologies.

Research Skills 🔧

Dr. Ishaq possesses extensive skills in research techniques including:

  • UV-Vis Spectroscopy
  • Atomic Force Microscopy
  • Scanning Electron Microscopy (SEM)
  • X-ray Diffraction (XRD)
    Additionally, he has vast experience in synthesizing advanced materials using techniques like physical vapor deposition and chemical vapor deposition. His ability to adapt to cutting-edge methods in material science strengthens his contributions to the development of next-generation solar technologies.

Teaching Experience 🍎

Dr. Ishaq has demonstrated a deep commitment to teaching and mentorship in academia. His roles as a lecturer and assistant director have honed his skills in educating and guiding students, particularly in Physics and solar energy applications. His academic guidance has fostered a generation of students prepared to tackle the challenges in applied science.

Awards and Honors 🏆

Dr. Ishaq’s outstanding contributions have been recognized with several awards and scholarships, such as:

  • Top Poster Presenter Award at the International Conference on Next Generation Energy Technologies (2016)
  • Academic Excellence Award and Graduate Honor Award at Huazhong University of Science and Technology (2019)
  • Ph.D. Scholarship from the Chinese Scholarship Council (2016-2019)

Legacy and Future Contributions 🌟

As a dedicated researcher and teacher, Dr. Ishaq’s future contributions are poised to continue impacting the fields of semiconductor physics and solar energy. His research on novel materials for energy applications positions him to make significant strides in sustainable energy solutions, and his commitment to teaching will inspire future generations of scientists and engineers to innovate and contribute to global sustainability.

Publications Top Notes

Introducing atomistic dynamics at van der Waals surfaces for enhancing the thermoelectric performance of layered Bi0.4Sb1.6Te3

  • Authors: Adil Mansoor; Bushra Jabar; Syed Shoaib Ahmad Shah; Muhammad Sufyan Javed; Tayyaba Najam; Muhammad Ishaq; Shuo Chen; Fu Li; Xiao-Lei Shi; Yue-Xing Chen et al.
    Journal: Energy & Environmental Science
    Year: 2025

High-performance flexible Sb₂Se₃ thin-film photodetector for tunable color imaging and wearable physiological monitoring applications

  • Authors: Shuo Chen; Hong-Bo Li; Yi Fu; Guo-Qiang Liu; Muhammad Ishaq; Jun Luo; Jian-Min Li; Bo Che; Jing-Ting Luo; Liming Ding et al.
    Journal: Nano Research
    Year: 2025

Suppressing weak-light voltage attenuation in Sb₂S₃ indoor photovoltaics using Li-doped TiO₂ layer

  • Authors: Kefei Wu; Hui Deng; Xinxin Feng; Jinwei Hong; Guidong Wang; Muhammad Ishaq; Caixia Zhang; Qiao Zheng; Weihuang Wang; Jionghua Wu et al.
    Journal: Nano Research
    Year: 2025

A Deep Dive into Cu₂ZnSnS₄ (CZTS) Solar Cells: A Review of Exploring Roadblocks, Breakthroughs, and Shaping the Future

  • Authors: Shah, Usman Ali; Wang, Ao; Ullah, Muhammad Irfan; Ishaq, Muhammad; Shah, Imtiaz Alam; Zeng, Yiyu; Abbasi, Misbah Sehar; Umair, Muhammad Ali; Farooq, Umar; Liang, Guang-Xing et al.
    Journal: Small
    Year: 2024

A novel Se-diffused selenization strategy to suppress bulk and interfacial defects in Sb₂Se₃ thin film solar cell

  • Authors: He, Haiying; Zhong, Yiming; Zou, Wanying; Zhang, Xinyu; Zhao, Jun; Ishaq, Muhammad; Liang, Guangxing
    Journal: Surfaces and Interfaces
    Year: 2024

 

Hosam M Gomaa | Material Science | Member

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Dr. Hosam M Gomaa | Material Science | Member

PHD at Faculty of Science, Al-Azhar University, Cairo, Egypt

Dr. Hosam M. Gomaa, based in Giza, Egypt, is an accomplished physicist specializing in Solid State Physics. With a background from Al-Azhar University, Cairo, he has lectured extensively in Libya and Egypt, covering diverse topics from General Physics to Optics. Currently affiliated with the Pharaohs Higher Institute, his research spans Materials, Optics, and Physics, focusing on areas like Oxide Glasses and Nanomaterials. Dr. Gomaa is known for his expertise in Thermal Analysis and Spectral Techniques. He has been an integral part of prestigious scientific teams, contributing significantly to Mossbauer Effect and Nanoscience research labs.

Professional Profiles:

Educational Qualifications

B. Sc. of Physics, Physics Department, Faculty of Science, Al-Azhar University, Cairo, Egypt, 1999/2000 M. Sc. of Solid State Physics, Department of Physics, Faculty of Science, Al-Azhar University, Cairo, Egypt, 2005 Ph. D. of Solid State Physics, Department of Physics, Faculty of Science, Al-Azhar University, Cairo, Egypt, 2008

Statement of Previous Experience:

Formal Lecturer (Assistant Professor) of Physics, Department of Physics, Faculty of Arts and Sciences, Sert University, Libya, 2009-2015 Lecturer (Assistant Professor) of Engineering Physics, Department of Physics, Faculty of Engineering Technology, Sert University, Libya, 2009-2015 Formal Tutor (Assistant Professor) of Basic Sciences (Physics, Electrical Engineering, Fundamentals of Electronics, Optics), Optical Branch, High Institute of Optical Technology, Cairo, Egypt, 2016-2020

Research Focus:

Dr. Hosam M. Gomaa’s research primarily focuses on the optical and structural properties of various glass systems, with a particular emphasis on bismuth borate glasses. His work encompasses the investigation of dopants like zinc, calcium, and niobium, and their effects on linear and nonlinear optical parameters. Additionally, he explores the structural modifications induced by the inclusion of different metal oxides, such as vanadium, copper, and titanium. Dr. Gomaa’s research contributes significantly to the understanding of glass materials for optoelectronic applications and radiation shielding. His studies offer valuable insights into the development of novel glass compositions with tailored optical and functional properties.

Publications

  1. Non-zero θ13 and δCP phase with A4 flavor symmetry and deviations to tri-bi-maximal mixing via Z2 × Z2 invariant perturbations in the neutrino sector, Publication: 2024.
  2. Effect of replacing B2O3 with Dy2O3 on the structural, physical, and radiation shielding properties of sodium boroaluminate glass, Publication: 2024.
  3. Investigating La2O3-enriched glass compositions: thermal, optical, structural properties and Gamma-Ray shielding efficiency, Publication: 2024.
  4. Photoimpedance spectroscopy of ZnTe/ZnMnTe heterojunction for photodetector devices using Cole–Cole diagrams and relaxation time processPublication: 2023.
  5. Effect of BaO doping on the structural and optical properties of some cerium-copper sodium borate glasses, Publication: 2023.
  6. Estimate of the effect of adding CoCl 2 in different amounts on the structural, optical properties, and the radiation shielding ability of arsenic borate glasses containing Na+, Ca++, and Pb++ cations, Publication: 2023.
  7. New mathematical formulas for more accurate physical descriptions of the optical and optoelectric conductivities of an optical medium, Publication: 2023.
  8. Effect of Graphene Nanopowder on the Structural and Optical Characteristics of Lead Borovanadate Glass Containing Ca2+ and Na+ Cations, Publication: 2023.
  9. Structural properties, linear, and non-linear optical parameters of ternary Se80Te(20−x)Inx chalcogenide glass systemsAnálisis estructural y parámetros ópticos lineales y no lineales de sistemas ternarios de vidrio de calcogenuro de composición Se80Te(20-x)Inx, Publication: 2023.
  10. Toward a novel and accurate relationship between electrical and optical conductivity in opto-material sciences: New strategyPublication: 2022.

 

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