Zhiwei Guan | Experimental Methods | Best Scholar Award

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Mr. Zhiwei Guan | Experimental Methods | Best Scholar Award

Shenzhen University | China

Mr. Zhiwei Guan is an emerging researcher specializing in on-chip optical information processing and optical communications. Currently pursuing an integrated Master-Ph.D. program in Optical Engineering at Shenzhen University under Prof. Dianyuan Fan, he has developed expertise in micro-nano photonic device design, fabrication, and optical communication technologies. His research contributions span the development of advanced mode division multiplexing (MDM) systems, photonic crystal devices, and metasurface-based optical processors. With multiple first-author publications in top-tier CAS Q1/Q2 journals and granted patents, Guan has demonstrated a strong combination of theoretical insight, practical fabrication skills, and innovative experimental design. Recognized with numerous academic awards, he is actively contributing to advancing high-speed, high-capacity optical networks, aiming to bridge fundamental photonic research with real-world communication applications.

Author Profiles

Scopus
Google scholar

Education

Zhiwei Guan began his academic journey at Shenzhen University, earning his bachelor’s degree in Optoelectronic Information Science and Engineering. During his undergraduate years, he developed a strong foundation in optical physics, photonics, and device fabrication techniques. He then entered the university’s integrated Master-Ph.D. program in Optical Engineering, supervised by Prof. Dianyuan Fan, where his studies have focused on photonic integrated circuits, micro-nano optical device design, and optical communication systems. This program has allowed him to combine deep theoretical research with extensive experimental work, leading to innovations in mode division multiplexing, topological photonics, and on-chip optical signal processing. Through active involvement in national and provincial research projects, Guan has built a robust academic and technical foundation for a career in photonics.

Professional Experience

Guan’s research experience centers on the design, fabrication, and application of advanced micro-nano optical devices. He has investigated optical field modulation mechanisms in subwavelength nanostructures, fabricating high-performance silicon-based waveguide devices using electron beam lithography, plasma etching, and other microfabrication techniques. In optical communications, he has led and contributed to projects advancing mode division multiplexing (MDM) networks, developing devices for (de)multiplexing, add/drop multiplexing, and full-duplex transmission. His experimental system achieved a record transmission rate of 15.625 Tbit/s. Guan has also worked on topological photonic crystal devices and metasurface-based orbital angular momentum processors. His role has ranged from device design to full-scale system integration, consistently bridging theoretical models with experimental verification, and overcoming fabrication challenges to produce practical, high-performance photonic solutions.

Awards & Honors

Zhiwei Guan’s research excellence has been recognized with numerous prestigious awards and scholarships. In 2024, he was honored with Shenzhen University’s “Excellent Doctoral Program” distinction, the “Top Innovative Talent Scholarship – Special Award,” the “Pengcheng Scholarship,” and the Doctoral Academic Scholarship. The year prior, he received the “Top Innovative Talent Scholarship – First Prize,” the Doctoral Academic Scholarship, and the “Outstanding Graduate Student Leader” award, acknowledging both academic and leadership excellence. In 2022, he won the Master’s Academic Scholarship – First Prize, and in 2021, the Special Award for the same scholarship. These accolades reflect his consistent top-tier performance, innovative research contributions, and active engagement in academic leadership. His recognition across multiple years underscores sustained excellence, positioning him as one of Shenzhen University’s most promising young photonics researchers.

Research Focus

Zhiwei Guan’s research focuses on on-chip optical information processing and high-capacity optical communications, with an emphasis on mode division multiplexing (MDM) technology. His work addresses the growing demand for faster, more efficient data transmission by designing and fabricating advanced micro-nano photonic devices, including silicon-based waveguides, topological photonic crystals, and metasurfaces. Guan’s research spans from fundamental optical field modulation studies at subwavelength scales to practical device integration for optical networking. His innovations in multimode processors enable key network functions such as (de)multiplexing, add/drop multiplexing, cross-connection, and full-duplex communication. He has successfully demonstrated an MDM-based experimental system achieving transmission speeds up to 15.625 Tbit/s. Beyond communication capacity, his work explores all-optical signal processing for next-generation photonic systems. By integrating design, simulation, fabrication, and testing, Guan’s research aims to create scalable, high-performance photonic solutions bridging academic research and industrial applications.

Notable Publication

  • Harpoon-shaped topological photonic crystal for on-chip beam splitter
    Authors: Z Guan, R Dou, C Xie, T Zuo, L Huang, K Wen, C Wang, H Ye, J Liu, …
    Journal: Science China Physics, Mechanics & Astronomy
    Year: 2024

  • Diversity gain in cylindrical vector beam multiplexing
    Authors: Z Guan, J Yang, J Ren, C Xie, L Nong, L Huang, T Zuo, Z Dong, C Wang, …
    Journal: Optics & Laser Technology
    Year: 2025

  • On-chip mode (de) multiplexer utilizing sandwich valley-topological edge waveguides
    Authors: Z Guan, K Wen, C Xie, J Liu, C Wang, H Ye, X Zhou, Z Dong, D Fan, …
    Journal: APL Photonics
    Year: 2025

  • Orbital angular momentum mode multiplexing communication in multimode fibers
    Authors: Z Guan, T Zuo, C Xie, L Huang, K Wen, C Wang, H Ye, Z Dong, D Fan, …
    Journal: Optics Communications
    Year: 2024

  • Photonic crystal-connected bidirectional micro-ring resonator array for duplex mode and wavelength channel (de) multiplexing
    Authors: Z Guan, C Wang, C Xie, H Wu, J Liu, H Ye, D Fan, J Xiao, S Chen
    Journal: Photonics Research
    Year: 2024

Conclusion

Zhiwei Guan is a highly capable young researcher whose work in on-chip photonics and optical communications demonstrates both technical mastery and innovative thinking. His combination of high-impact publications, patents, and significant experimental achievements reflects a strong ability to translate theoretical concepts into practical, scalable technologies. Recognized with multiple academic honors, he is well-positioned to make lasting contributions to photonic science and engineering. Guan’s dedication, creativity, and leadership make him a standout candidate for recognition as an emerging leader in optical research.

Vikramsingh Thakur | Experimental Methods | Best Scholar Award

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Dr. Vikramsingh Thakur | Experimental Methods | Best Scholar Award

Dr. Vikramsingh Thakur | Indian Institute of Technology Delhi | India

Vikramsingh Thakur is a highly accomplished materials scientist and polymer engineer with expertise in sustainable packaging and nanocomposites. Currently working at ITC Life Science & Technology Centre, Bangalore, he is engaged in developing biodegradable, high-barrier packaging solutions. With a robust academic foundation, including a Ph.D. from IIT Delhi and M.Tech from the same institute, Vikramsingh has also contributed to R&D at Saint-Gobain, Resile Chemicals, and DRDO. He has authored multiple peer-reviewed publications, co-authored a patent, and represented India at international conferences. His research integrates functionality, sustainability, and real-world impact. Passionate about bridging the gap between innovation and application, he has received notable awards including the Prime Minister’s Research Fellowship and multiple institutional recognitions, making him a standout young scholar in materials science.

Author Profile

Scopus | ORCID

Education

Vikramsingh Thakur completed his Ph.D. in Materials Science and Engineering from IIT Delhi, where his thesis focused on developing multifunctional nanocomposite films with barrier, mechanical, and sensing properties for smart packaging. He also holds an M.Tech in Polymer Science and Technology from IIT Delhi, graduating with distinction. Prior to this, he earned a B.Tech in Plastic and Polymer Engineering from Maharashtra Institute of Technology, Aurangabad and a Diploma in the same field from Government Polytechnic, Amravati. His academic journey has been marked by consistent excellence and a deep engagement with advanced materials, polymer composites, and sustainable engineering, laying a strong foundation for impactful interdisciplinary research.

Professional Experience

Vikramsingh currently serves as a Fellow Trainee Consultant at ITC Life Science & Technology Centre, where he works on biodegradable, high-barrier packaging materials across food, tobacco, and personal care industries. Previously, he worked at Saint-Gobain Abrasives R&D, Bangalore, as a PGET, developing nonwoven abrasive products and winning a “Business Impact Award.” He has also completed research internships at Resile Chemicals, developing silicone-modified resins, and at DRDO Pune, where he worked on electrospun nanofiber-reinforced laminates. His experience spans academia and industry, blending material innovation with product development. With expertise in compounding, extrusion, testing, and sustainability compliance, Vikramsingh brings a versatile skill set to materials research, consistently aligning scientific advancements with industrial applications.

Awards and Honors

Vikramsingh Thakur has received multiple prestigious awards throughout his academic and research career. He is a recipient of the Prime Minister Research Fellowship (PMRF), India’s highest fellowship for doctoral scholars. At IIT Delhi, he was awarded the Research Excellence Travel Award and Best Teaching Assistant Award by the Materials Science Society. Earlier, during his tenure at Saint-Gobain, he won the Business Impact Award for project excellence. He was also honored with the Devidasrao Ashtaputre Memorial Award for academic performance during his B.Tech. Additionally, his early work earned him the Best Poster Award at a national symposium in 2014. These accolades reflect his consistent academic brilliance, research innovation, and impactful contributions to both scientific and industrial domains.

Research Focus

Vikramsingh’s research focuses on the development of multifunctional polymer nanocomposite films for intelligent and sustainable packaging applications. His doctoral work explored barrier (OTR & WVTR), mechanical, antioxidant, and pH-responsive properties in biodegradable packaging. He specializes in processing-structure-property correlations using nanoclays, electrospun fibers, and smart additives such as anthocyanins and ethylene scavengers. His patent on bilayered halochromic freshness markers and his publications in ACS and Wiley journals highlight innovations in food packaging. He also works on thermally conductive and electrically insulating polymer composites for electronics. Vikramsingh integrates principles of materials design, sustainability, and functionality, aiming to bridge academia with industry through real-world solutions in advanced polymers and environmental protection.

Notable Publications

Synergistic Effect of Halloysite and Montmorillonite for Barrier-Resistant and Smart Films as Active Food Packaging for Improved Shelf Life

  • Authors: Vikramsingh Thakur, Bhabani Kumar Satapathy
    Journal: Integrated Ferroelectrics
    Year: 2025

Integration of benzoic acid-loaded nanocellulose fibers on biodegradable poly(3-hydroxybutyrate-co-3-hydroxyvalerate) matrix and its application into food preservation

  • Authors: Aiswarya Thattaru Thodikayil, Ashutosh Kumar, Vikramsingh Thakur, Gangalakshmi V, Shaifali Dhingra, Sampa Saha
    Journal: Polymer Engineering & Science
    Year: 2024

Robust Tear-Resistant Blown Nanocomposite Films for Barrier Packaging: Role of Clay Platelet Thickness in Tear Mechanics and Barrier Performances

  • Authors: Vikramsingh Thakur, Bhabani K. Satapathy
    Journal: ACS Applied Polymer Materials
    Year: 2023

Electrospun Nanofibrous Mat-on-Film Bilayered Halochromic Freshness Marker-Enabled Intelligent Food Packaging Film Based on Red Cabbage Anthocyanins

  • Authors: Vikramsingh Thakur, Bhabani K. Satapathy
    Journal: ACS Food Science & Technology
    Year: 2023

Biodegradable Polymers for Food Packaging Applications

  • Authors: Vikramsingh Thakur, Bhabani K. Satapathy, Chandrani Sarkar, Sampa Saha
    Journal: Materials Horizons: From Nature to Nanomaterials (Springer, Singapore)
    Year: 2023

Conclusion

Vikramsingh Thakur is an exceptional young researcher who blends scientific rigor with industrial relevance. His work in sustainable packaging and multifunctional nanocomposites demonstrates innovation, technical depth, and societal impact. With a strong academic background, hands-on R&D experience, and a growing international footprint, he stands out as a future leader in materials science and engineering. His passion for research, commitment to sustainability, and problem-solving approach make him a deserving candidate for prestigious recognitions and continued contributions to science and technology.

Brajadulal Chattopadhyay | Experimental Methods | Innovative Research Award

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Prof. Dr. Brajadulal Chattopadhyay | Experimental Methods | Innovative Research Award

Prof. Dr. Brajadulal Chattopadhyay | Jadavpur University | India

Professor Brajadulal Chattopadhyay is a distinguished academic in the Department of Physics, Jadavpur University, with over two decades of experience in interdisciplinary scientific research. His work spans biophysics, nanotechnology, microbial applications in concrete, and environmental sustainability. An alumnus of the University of Calcutta, he earned his Ph.D. in Biophysics and Molecular Biology in 1994. His innovative research has resulted in several patents and impactful publications, and his projects often integrate molecular biology with applied physics. He has supervised over 28 Ph.D. students and leads several national and international research projects. His pioneering work on microbial bio-concrete has earned recognition for its potential in green construction technology. A recipient of multiple prestigious fellowships and awards, Professor Chattopadhyay is a committed educator, a prolific researcher, and a regular reviewer for high-impact international journals.

Author Profile

Scopus

Education

Professor Chattopadhyay completed his B.Sc. (Hons.) in Physics in 1985 from Ramakrishna Mission Vidyamandira, affiliated with the University of Calcutta. He pursued M.Sc. in Physics with a specialization in Biophysics from the University of Calcutta, graduating in 1987. He qualified the CSIR-UGC NET in Physics in 1989. He earned his Ph.D. in 1994 from the University of Calcutta under the supervision of Professor Ashoke Ranjan Thakur, with a thesis titled “Biophysical Studies of Methane Emission by Methanogenic Bacteria.” His educational trajectory reveals a strong foundation in interdisciplinary sciences, combining core physics with life sciences and biotechnology, setting the stage for his later work in bioconcrete and nanobiotechnology.

Professional Experience

Professor Chattopadhyay has been serving in the Physics Department of Jadavpur University since 1998. Beginning his academic journey as a Lecturer, he steadily progressed to Senior Lecturer, Reader, and Associate Professor, and has held the position of Professor since July 2013. His cumulative academic experience spans over 25 years. He has undertaken significant leadership in research and teaching, having guided 28 Ph.D. students (with 8 currently enrolled), reviewed numerous international journal articles, and managed over 9 government-funded research projects. His expertise lies in merging biophysics, material science, and molecular biology to develop innovative technologies such as microbial self-healing concrete and nanostructured materials for biomedical and environmental use. His work has received both national and international recognition and involves collaborations with reputed institutions and funding bodies like DBT, DRDO, and AICTE. His commitment to applied research is evidenced by patents, publications, and a strong mentorship legacy.

Awards and Honors

Professor Chattopadhyay’s research excellence has earned him numerous accolades. He received the National Scholarship (1979–85) and UGC Research Fellowship (1990–94) early in his academic career. His postdoctoral contributions were supported by a DBT Fellowship (1994–96) and a DAE Research Associateship (1996–98). In recognition of his pioneering work, he was awarded an Overseas Associateship by DBT (2007–08). Notably, he received the Best Patentable Research Award from Intellectual Ventures, Asia Chapter, in 2010–11. These awards underline his sustained contribution to applied and innovative science, particularly in microbial bioconcrete, bio-remediation, and nanobiotechnology. In addition, he is a recognized reviewer for several high-impact SCI/SCIE-indexed international journals, further cementing his role in shaping global scientific discourse.

Research Focus

Professor Chattopadhyay’s research seamlessly bridges physics, molecular biology, nanotechnology, and environmental science. His primary research interest lies in bio-concrete technology, where he explores microbial solutions for developing self-healing, eco-friendly concrete materials. He has patented bioconcrete processes and discovered hot spring bacterial strains contributing to crack remediation in construction. His other major area includes nanobiotechnology, particularly the use of black phosphorus, doped nanoparticles, and nano-curcumin in therapeutic, antibacterial, and photocatalytic applications. His studies also address environmental sustainability, such as water purification using nanoparticles and microbial synthesis of sophorolipids from industrial waste. Notably, he investigates the role of dietary agents and nanoparticles in mitigating nicotine-induced damage and diabetes-related complications. His work is highly interdisciplinary, involving collaborative research in microbiology, civil engineering, and biomedical sciences, backed by substantial government funding. Professor Chattopadhyay’s vision is to innovate at the interface of fundamental science and practical technology for societal benefit.

Notable Publications

Wealth from waste: Multifaceted yeast bio-synthesised sophorolipids using industrial waste by-products as substrate

  • Authors: Srija Pal, Niloy Chatterjee, Brajadulal Chattopadhyay, Sriparna Datta, Pubali Dhar
    Journal: Indian Journal of Chemical Technology
    Year: 2025

Valorization of oil refinery by-products: production of sophorolipids utilizing fatty acid distillates and their potential antibacterial, anti-biofilm, and antifungal activities

  • Authors: Srija Pal, Niloy Chatterjee, Sagnik Sinha Roy, Brajadulal Chattopadhyay, Krishnendu Acharya, Sriparna Datta, Pubali Dhar
    Journal: World Journal of Microbiology and Biotechnology
    Year: 2024

Sonochemically synthesized black phosphorus nanoparticles: a promising candidate for piezocatalytic antibacterial activity with enhanced dielectric properties

  • Authors: Piyali Halder, Indrajit Mondal, Neelanjana Bag, Alapan Pal, Somen Biswas, Souvik Sau, Biplab Kumar Paul, Dheeraj Mondal, Brajadulal Chattopadhyay, Sukhen Das
    Journal: Dalton Transactions
    Year: 2024

Te4+ and Er3+ doped ZrO₂ Nanoparticles with Enhanced Photocatalytic, Antibacterial Activity and Dielectric Properties: A Next Generation of Multifunctional Material

  • Authors: Piyali Halder, Indrajit Mondal, Anwesha Mukherjee, Somen Biswas, Souvik Sau, Sucheta Mitra, Biplab Kumar Paul, Dheeraj Mondal, Brajadulal Chattopadhyay, Sukhen Das
    Journal: Journal of Environmental Management (Accepted)
    Year: 2024

Efficacy of nano-curcumin on nicotine-induced genotoxicity and immunomodulatory disruption in protein-malnourished female rats

  • Authors: Somashree Biswas, Krishna Chattopadhyay, Brajadulal Chattopadhyay
    Journal: Indian Journal of Physiology and Allied Sciences
    Year: 2024

Modified Bacteria Incorporated Geopolymer – A Qualitative Approach for an Eco-friendly, Energy-efficient and Self-healing Construction Material

  • Authors: Avishek Chatterjee, Nurul Alam, Trinath Chowdhury, Brajadulal Chattopadhyay
    Journal: Journal of Civil Engineering and Construction
    Year: 2024

Codon usage pattern of a novel Satyabrata bacterial strain BKH4 isolated from hot spring

  • Authors: Satyabrata Sahoo, Brajadulal Chattopadhyay, Ria Rakshit
    Journal: Industrial Biotechnology
    Year: 2023

Conclusion

Professor Brajadulal Chattopadhyay exemplifies impactful interdisciplinary research, integrating physics, microbiology, and materials science to address global challenges. His pioneering work in bioconcrete and environmental nanotechnology has resulted in patented innovations, impactful publications, and strong mentorship. His career reflects academic excellence, practical relevance, and a commitment to sustainability.

 

Haotong Tang | Experimental Methods | Best Researcher Award

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Mr. Haotong Tang | Experimental Methods | Best Researcher Award

Mr. Haotong Tang | Chang’an University Xi’an | China

Haotong Tang is a dedicated researcher in the field of intelligent connected vehicles and autonomous driving systems. Currently pursuing a Ph.D. in Traffic Information Engineering and Control at Chang’an University, Xi’an, he has a solid academic background in Computer Science and Technology, holding both undergraduate and master’s degrees from the same institution. His research centers on intelligent decision-making, control optimization, and vehicle-infrastructure cooperation. Tang has contributed to high-impact publications and is focused on developing practical, efficient solutions to real-world transportation challenges. His work combines deep reinforcement learning, game theory, and collaborative control strategies to enhance the safety, efficiency, and intelligence of autonomous vehicle systems in complex traffic environments.

Author Profile

Scopus

Education

Haotong Tang began his academic journey in 2019 at Chang’an University, Xi’an, where he earned his Bachelor’s degree in Computer Science and Technology in June 2023. Motivated by a passion for intelligent systems, he continued his studies at the same university, enrolling in a Master’s program in Computer Science and Technology in September 2023, with an expected graduation in June 2026. In parallel, he commenced a Ph.D. program in Traffic Information Engineering and Control in September 2025. This multidisciplinary educational path has equipped Tang with strong foundations in both computing and traffic systems, allowing him to integrate advanced technologies such as AI and control theory into the development of intelligent transportation systems.

Experience

Haotong Tang has actively participated in research projects focused on intelligent connected vehicle control and decision-making. His experience spans collaborative work in simulation-based optimization of traffic scenarios, particularly vehicle platooning and autonomous lane-changing strategies. He has contributed to publications in respected international journals and worked alongside academic mentors and interdisciplinary teams. His research involvement has included algorithm development, system modeling, and experimental validation. Tang is skilled in applying deep reinforcement learning, multi-agent systems, and game-theoretic approaches to real-world transportation problems, with hands-on experience in platforms such as CARLA and SUMO for traffic and vehicle simulations.

Research Focus

Haotong Tang’s research primarily explores the intersection of intelligent transportation systems and autonomous vehicle decision-making. His work emphasizes the development of advanced control strategies and decision algorithms for intelligent connected vehicles (ICVs), particularly in dynamic environments such as highways. His current studies address challenges in vehicle platooning, cooperative driving, and lane-changing maneuvers within mixed traffic flows. He applies deep reinforcement learning (DRL) to optimize decision-making processes and leverages game-theoretic models to handle interactions between autonomous and human-driven vehicles. Additionally, Tang is exploring cooperative vehicle-infrastructure control, aiming to create integrated systems that enhance traffic efficiency, safety, and scalability. By combining theoretical innovation with practical simulation tools, he seeks to contribute to the realization of next-generation transportation networks where autonomous vehicles operate harmoniously with traditional systems and infrastructure. His multidisciplinary approach positions him at the forefront of intelligent mobility research.

Publication

A time-efficient lane-changing strategy for connected and autonomous vehicle platoons in mixed traffic

  • Authors: Fansheng Xing, Chenglin Liu, Zhigang Xu, Jiatong Xu, Haotong Tang, Ying Gao, Xiangmo Zhao, Xiaobo Qu, Xiaopeng Li
    Journal: Expert Systems with Applications

Conclusion

Haotong Tang is a promising researcher advancing the future of autonomous driving through intelligent control and decision-making systems. With a strong academic foundation and active engagement in impactful research, he contributes innovative solutions to real-world transportation challenges. His work bridges theoretical insights and practical applications, supporting safer and more efficient traffic systems. As he progresses through his Ph.D. and Master’s studies, Tang remains committed to pushing the boundaries of intelligent transportation technologies through rigorous research and collaborative development.

Xiaolan Xue | Experimental methods | Best Researcher Award

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Dr. Xiaolan Xue | Experimental methods | Best Researcher Award

Lecturer at China University of Mining and Technology, China

Dr. Xiaolan Xue is a dedicated materials scientist whose research significantly advances the field of electrochemical energy storage, particularly multivalent ion batteries. She earned her Ph.D. in Chemistry from Nanjing University in 2020 under the mentorship of Prof. Zhong Jin. Currently, she is a researcher at the School of Materials Science and Physics, China University of Mining and Technology. Her work centers around designing innovative functional materials for high-performance rechargeable batteries, focusing on magnesium-ion systems. Dr. Xue has published over 20 peer-reviewed articles in high-impact journals such as Advanced Functional Materials, ACS Nano, and Nano Letters. Her research integrates material design, redox chemistry, and interface engineering. She is also a frequent collaborator on multidisciplinary projects, showcasing her strong leadership and team science capabilities. Dr. Xue continues to push the boundaries of sustainable energy research, contributing both foundational knowledge and practical advancements in next-generation energy storage technologies.

Author Profile

Scopus | ORCID

Education

Dr. Xiaolan Xue obtained her Ph.D. in Chemistry from the prestigious School of Chemistry and Chemical Engineering at Nanjing University (China). During her doctoral studies, she worked under the guidance of Prof. Zhong Jin, a renowned figure in electrochemical energy systems and nanomaterials. Her Ph.D. research laid a strong foundation in functional materials, redox processes, and advanced characterization methods for electrochemical applications. Prior to her doctorate, she completed her undergraduate and master’s degrees in chemistry, where she began focusing on the synthesis and evaluation of materials for environmental and energy-related applications. Her educational journey has been rooted in interdisciplinary learning, combining materials science, electrochemistry, nanotechnology, and catalysis. This diverse academic background has equipped her with a solid theoretical and experimental skill set that supports her current research in magnesium-ion batteries and beyond. She consistently ranked at the top of her class and received multiple academic recognitions throughout her education.

Experience 

Since earning her Ph.D. in 2020, Dr. Xiaolan Xue has served as a researcher and faculty member at the School of Materials Science and Physics, China University of Mining and Technology. She is engaged in cutting-edge research focused on advanced materials for multivalent ion batteries, primarily magnesium-based systems. She has led several independent projects and collaborations, contributing to the development of interface engineering strategies, hybrid cathode materials, and redox chemistry in energy storage. Dr. Xue has extensive hands-on experience with materials synthesis, structural characterization (XRD, SEM, TEM, XPS), and electrochemical performance analysis (CV, EIS, GCD). She has also mentored graduate and undergraduate students, fostering academic growth and scientific curiosity. In addition to her laboratory work, she regularly participates in peer reviews and editorial activities. Her postdoctoral experience continues to reflect a commitment to academic excellence and innovation in sustainable and high-performance energy storage technologies.

Awards and Honors

Dr. Xiaolan Xue has been recognized with several awards and honors for her outstanding contributions to energy storage research. Notably, she has received Best Paper Awards, Young Scientist Awards, and Excellent Researcher recognitions at both national and institutional levels. Her publications in prestigious journals such as ACS Nano, Advanced Functional Materials, and Nano Research have been featured in editorial highlights and recommended reading lists. She has also been invited as a reviewer for leading scientific journals in materials science and electrochemistry. Throughout her academic journey, she earned multiple merit-based scholarships during her doctoral and postgraduate studies. Moreover, she was nominated for research excellence awards by the China University of Mining and Technology, recognizing her high-impact scientific contributions and collaborative research efforts. Her work continues to gain attention in the global battery research community, positioning her as an emerging leader in sustainable energy materials development.

Research Focus

Dr. Xiaolan Xue’s research primarily revolves around developing advanced functional materials for electrochemical energy storage systems, with a strong emphasis on multivalent ion batteries, especially magnesium-ion batteries. Her scientific approach integrates nanostructure engineering, interface modification, and cathode/electrolyte optimization to enhance the efficiency, stability, and life cycle of next-generation batteries. She focuses on both inorganic (metal sulfides, selenides) and organic electrode materials, exploring redox mechanisms, structural transformations, and interfacial reactions at the atomic level. Dr. Xue also investigates cationic-anionic redox reactions, electrolyte-cathode compatibility, and separator functionalization. Her work contributes to resolving key challenges such as dendrite formation, poor reversibility, and low conductivity in multivalent systems. With an interdisciplinary approach combining chemistry, materials science, and energy technology, her research aims to offer sustainable, high-capacity, and safe battery solutions for future electronics, grid storage, and electric vehicles. She continuously seeks to bridge fundamental understanding with practical application in energy storage technologies.

Publication

  • CuCl as a Mg2+ Reservoir for in situ Interface Layer Engineering and Highly Stable Mg Plating/Stripping, Journal of Colloid and Interface Science, 2025 (accepted).
  • Synergy of Electrolyte Manipulation and Separator Functionalization Enables Ultralong-life Nonaqueous Magnesium-Organic Batteries, Journal of Materials Chemistry A, 2024.
  • High-Capacity and Ultra-Long-Life Mg-Metal Batteries Enabled by Intercalation-Conversion Hybrid Cathode Materials, Small, 2024.
  • A Review of Metal Sulfide Cathode Materials for Non-Aqueous Multivalent Ion Batteries, Journal of Energy Storage, 2024.
  • Cationic-Anionic Redox Chemistry in Multivalent Metal-Ion Batteries, Advanced Functional Materials, 2023.
  • Interlayer Engineering of VS2 Nanosheets via In Situ Aniline Intercalative Polymerization, ACS Applied Materials & Interfaces, 2023.
  • Electronic Structure Engineering on NiSe2 via Nitrogen Doping, Journal of Colloid and Interface Science, 2023.
  • A Critical Review of Inorganic Cathode Materials for Rechargeable Magnesium Ion Batteries, Journal of Energy Storage, 2023.

Conclusion

Dr. Xiaolan Xue is a rising star in materials science, contributing outstandingly to electrochemical energy storage research. Her innovative approaches and prolific publication record underscore her value to the scientific community. She is well-positioned to lead future developments in sustainable energy materials and next-generation battery technologies.

 

 

Sadaf Saeed | Experimental methods | Best Researcher Award

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Dr. Sadaf Saeed | Experimental methods | Best Researcher Award

Post doc at Shenzhen University, China

Dr. Sadaf Saeed is a highly accomplished researcher specializing in applied physics, nanotechnology, and advanced laser-based micro/nanofabrication. She is currently a Postdoctoral Research Fellow at the School of Physics and Optoelectronic Engineering, Shenzhen University, China, focusing on femtosecond laser-driven two-photon polymerization for fiber Bragg grating applications. She earned her Ph.D. in Physics (Electronics) from Changchun University of Science and Technology, China, with a thesis on multifunctional nanostructured surfaces via laser interference lithography and metal-assisted chemical etching. With experience as Head of the Physics Department at Legend Institute, Pakistan, and as a lecturer at NFC Institute of Engineering and Technology, she blends teaching and high-impact research. She has published in leading journals such as Applied Optics, Nanotechnology, Langmuir, and Applied Surface Science. Dr. Saeed is a recipient of multiple scholarships and awards and actively contributes to global R&D projects in micro/nano manufacturing and surface engineering.

Author Profile

Scopus | ORCID | Google scholar

Education

Dr. Sadaf Saeed holds a Postdoctoral fellowship in Physics from Shenzhen University. She completed her Ph.D. in Physics (Electronics) at Changchun University of Science and Technology, China, under the supervision of Prof. Dr. Zuobin Wang, with a focus on micro/nanostructured surfaces fabricated via laser techniques. She earned her M.Phil. in Physics and B.Sc. in Physics from Bahauddin Zakariya University, Multan, Pakistan, where she ranked among the top students. Her M.Phil. thesis focused on the structural and electrical properties of metal-polymer composites. She also holds an F.Sc. in General Science and Matriculation in Science from BISE Multan. Throughout her academic journey, she pursued rigorous coursework in classical mechanics, electronics, material science, computational physics, and solid-state physics, building a solid foundation for interdisciplinary research in nanotechnology, optics, and material characterization.

Experience

Dr. Sadaf Saeed has over seven years of progressive experience in academic research and teaching. Currently, she is a Postdoctoral Researcher at Shenzhen University, China. She worked as a researcher at the International Research Centre for Nano Handling and Manufacturing, Changchun, China, contributing to international nanofabrication projects. Previously, she served as Head of the Physics Department at Legend Institute of Management Sciences, Multan, where she managed curriculum development, academic planning, and student mentoring. She worked as a Physics Lecturer at NFC Institute of Engineering and Technology, teaching core physics courses. She has significant lab experience in material simulations, spectroscopy, and nanostructure characterization using advanced tools like SEM, TEM, AFM, and FDTD. She is also skilled in MATLAB, COMSOL, VASP, OriginPro, and other simulation environments, making her a versatile researcher capable of both theoretical and experimental work.

Awards and Honors

Dr. Sadaf Saeed has received several awards and honors in recognition of her academic and research excellence. She was selected for the Best Student Paper Award at the IEEE 3M-NANO 2023 Conference in Chengdu, China. She was a recipient of the Chinese Government Scholarship for her Ph.D. studies (2019–2023). During her M.Phil. program, she ranked among the top three students in her department. She has actively participated in major international conferences, including the IEEE 3M-NANO 2022 & 2023, the Asian VCSEL Day 2023, the 11th International Conference on Information Optics and Photonics (Xian, China), and AOPC 2019. Her patent on femtosecond laser fabrication for fiber Bragg grating applications further demonstrates her innovation. Additionally, she has contributed to several high-impact national and international R&D projects, including China’s “111” Project, Horizon Europe’s L4DNANO, and Jilin Provincial Science and Technology initiatives.

Research Focus 

Dr. Sadaf Saeed’s research bridges the disciplines of surface engineering, laser physics, and nanotechnology. Her primary focus is on the fabrication of multifunctional micro/nanostructured surfaces using Laser Interference Lithography (LIL) and Metal-Assisted Chemical Etching (MACE). She explores their applications in antireflection, superhydrophobicity, enhanced wettability, and SERS. In her postdoctoral work, she investigates femtosecond laser-driven two-photon polymerization techniques for phase mask fabrication in fiber Bragg grating systems, targeting high-precision optical device manufacturing. She is proficient in computational simulations such as FDTD, DFT, COMSOL, and VASP, applying them to optimize structures before fabrication. Her work also intersects optics, materials characterization, and electrical properties of nano-interfaces, contributing to the next generation of functional surfaces and optical components. She collaborates across international labs and contributes to major global initiatives, including the Horizon Europe L4DNANO project and National R&D Programs of China, emphasizing interdisciplinary, solution-oriented research.

Publications

  • Optimizing broadband antireflection with Au micropatterns: a combined FDTD simulation and two-beam LIL approachApplied Optics (2024)
  • Hierarchical and Gradient Si Nano Wires-holes Arrays by LIL and MACEIEEE 3M-NANO Conference Proceedings (2022)
  • Si Nanowires-holes Arrays with Enhanced WettabilityIEEE 3M-NANO Conference Proceedings (2023)
  • Synergistic Antireflection and SERS Enhancement in Hybrid Silicon Nanowires by LIL and MACESpringer Journal of Materials Science (Accepted)
  • Design and Fabrication of Silicon Micro Rings Using FDTD and Laser Interference Lithography and SERS PropertiesJournal of Optics (Accepted)
  • Integration of Three-Beam Laser Interference Lithography and Metal Assisted Chemical Etching…Mechanics of Advanced Materials and Structures (Accepted)
  • Advanced Femtosecond Laser-Driven Two-Photon Polymerization Technique for Phase Mask FabricationUS Patent, Shenzhen University
  • Laser Interference Lithography—A Method for the Fabrication of Controlled Periodic StructuresNanomaterials (2023)

Conclusion

Dr. Sadaf Saeed presents a compelling profile with a clear research focus, international recognition, and a strong record of academic output. Her contributions to micro/nanostructure fabrication, laser technologies, and optical device engineering are valuable to both scientific advancement and real-world applications.

Anji Reddy Polu | Experimental Methods | Editorial Board Member

Published on by High Energy Physics

Assist . Prof . Dr . Anji Reddy Polu | Experimental Methods | Editorial Board Member

Assistant Professor, BVRIT HYDERABAD College of Engineering for Women , India

Profile 

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🧑‍🎓 Early Academic Pursuits

Dr. Anji Reddy Polu embarked on his academic journey with outstanding performance in the sciences. e earned his B.Sc. with a remarkable 87.7%, securing 1st rank at Hindu College, under Acharya Nagarjuna University. Continuing his excellence, he pursued M.Sc. in Physics from Dr. H S Gour Central University, where he stood 3rd in the university, securing 75.3%. His passion for materials science led him to complete his Ph.D. in Physics (2008–2013) from the same university, under the guidance of Prof. Ranveer Kumar, with a dissertation on “Synthesis and Characterization of Some Polymer Electrolytes for Electrochemical Device Applications”.

🧪 Research Experience and Expertise

Dr. Reddy’s research journey took a significant leap with his Post-Doctoral Fellowship at Sogang University, South Korea (2014–2016), focusing on polymer electrolytes for Li-ion batteries under Prof. Hee-Woo Rhee. Prior to this, he served as a Post-Doctoral Fellow at VIT University, India, working on solid polymer electrolytes for Mg-ion and Zn-ion batteries. His expertise spans organic-inorganic hybrid (POSS) nanocomposites, metal-ion batteries (Li, Na, Mg, Zn, K), and nanoionic liquids, emphasizing energy storage and conversion devices.

👨‍🏫 Teaching Experience

With a rich teaching background, Dr. Reddy has served in various esteemed institutions:

  • BVRIT Hyderabad (2021–Present)Associate Professor

  • Malla Reddy Engineering College (2019–2021)Assistant Professor

  • Vardhaman College of Engineering (2016–2018)Assistant Professor

  • K L University (2012–2013)Assistant Professor

  • St. Ignatius Degree & PG College (2006–2008)Lecturer

He is deeply committed to student development and has been a key contributor to curriculum enrichment and academic mentoring.

🔬 Contributions and Research Focus

Dr. Reddy’s research focus centers around solid-state battery technologies, especially:

  • Solid Polymer Electrolytes (SPEs)

  • Hybrid Nanocomposites

  • Electrochemical device applications

He has been instrumental in developing novel materials for Li-ion, Na-ion, Zn-ion, and Mg-ion batteries, with a keen interest in green energy solutions and nanotechnology applications. His work is known for its practical applications and industrial relevance.

🧠 Technical & Research Skills

He possesses advanced skills in:

  • Electrochemical Impedance Spectroscopy (EIS)

  • Cyclic Voltammetry (CV)

  • XRD, DSC, TGA, FTIR, SEM, TEM, AFM, POM

  • Battery analysis using WBCS3000 series

  • Glove box handling, planetary ball milling, and spin coating

These competencies enable him to perform cutting-edge experimental research in material science and battery technology.

📊 Patents and Innovations

Dr. Reddy is a prolific inventor with 9 patents to his name, filed in India and South Korea, covering solid-state electrolytes, nanocomposites, and energy storage innovations, such as:

  • Solid Polymer Electrolyte for Solid-State Zinc-ion Battery

  • Robotic Trash Disposal System

  • Hybrid Nanocomposite Solid Polymer Electrolyte

His patents are a testament to his innovative approach and practical impact in clean energy technologies.

🏅 Awards and Honors

Dr. Reddy has received numerous accolades, including:

  • Featured in Stanford University’s World’s Top 2% Scientists List (2022–2024)

  • Best Researcher Award – 2021

  • Albert Nelson Marquis Lifetime Achievement Award (2017–2019)

  • Best Speaker and Best Poster Awards

  • Outstanding Reviewer (Elsevier, 2015)

  • DAAD, CSIR, INSA travel grants

  • UGC-RFSMS Fellow, D.S. Kothari Fellowship awardee
    These honors reflect his international reputation and dedication to research excellence.

📈 Academic Citations and Influence

With high-impact publications and a steady stream of citations, Dr. Reddy is recognized globally in the field of solid polymer electrolytes and battery technology. His interdisciplinary research has contributed to advancements in energy storage systems that are vital for sustainable technologies.

🌟 Legacy and Future Contributions

As a scholar, teacher, and innovator, Dr. Anji Reddy Polu continues to shape the future of energy storage research. His commitment to academic excellence, mentorship, and technological innovation promises a lasting legacy in the materials science and electrochemical energy domains. Moving forward, he aims to expand his research into next-generation batteries, explore biopolymer-based systems, and foster global collaborations to tackle energy challenges.

Top Noted Publications

Enhancing ionic conductivity, mechanical stability and electrochemical properties simultaneously by integrating POSS-PEG13.3 hybrid nanoparticles into PEO-NaClO4 solid polymer electrolytes

  • Authors: Anji Reddy Polu, Pramod K. Singh, Aseel A. Kareem, Shufeng Song, Serguei V. Savilov, M.Z.A. Yahya, Markus Diantoro, Firdaus Mohamad Hamzah, S.N.F. Yusuf, Faisal Islam Chowdhury
    Journal: Chemical Physics Impact
    Year: 2025

Impact of tetracyanoethylene plasticizer on PEO based solid polymer electrolytes for improved ionic conductivity and solid-state lithium-ion battery performance

  • Authors: Anji Reddy Polu, Kwangmin Kim, Aseel A. Kareem, Dongkyu Kim, Shufeng Song, Serguei V. Savilov, Pramod K. Singh
    Journal: Journal of Power Sources
    Year: 2025

Performance enhancement of PEO: LiDFOB based nanocomposite solid polymer electrolytes via incorporation of POSS-PEG13.3 hybrid nanoparticles for solid-state Li-ion batteries

  • Authors: Anji Reddy Polu, Shufeng Song, Aseel A. Kareem, Serguei V. Savilov, Pramod K. Singh, Mekala Venkanna, Chava Sunil Kumar
    Journal: Journal of Physics and Chemistry of Solids
    Year: 2025

Enhancing the Properties of PEG-Based Solid Polymer Electrolytes with TiO2 Nanoparticles for Potassium Ion Batteries

  • Authors: Anji Reddy Polu, Faisal Islam Chowdhury, Pramod K. Singh, Markus Diantoro, Firdaus Mohamad Hamzah
    Journal: Chemical Physics Impact
    Year: 2025

Fast-charging heterogeneous ether-ester lithium metal batteries enabled by 12 μm-thick trilayer separator

  • Authors: Fengkun Wei, Shengxian Wang, Serguei V. Savilov, Anji Reddy Polu, Pramod K. Singh, Ning Hu, Shufeng Song
    Journal: Journal of Membrane Science
    Year: 2025

Bhakti Pada Das | Experimental methods | Best Researcher Award

Published on by High Energy Physics

Dr. Bhakti Pada Das | Experimental methods | Best Researcher Award

Ex-Student, Indian Institute of Technology, Kharagpur | India

Dr. Bhakti Pada Das is a distinguished physicist with expertise in the structural, dielectric, electrical, and magnetic properties of various materials. He completed his B.Sc. (Honours) in Physics from Calcutta University in 1981, followed by his M.Sc. in Physics from IIT Kharagpur in 1984. He earned his Ph.D. in Physics from Vidyasagar University, Midnapore in 2006. With over three decades of academic and research experience, Dr. Das has made significant contributions to material science, particularly in ferroelectric systems and nanotechnology.

👨‍🎓Profile

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Early Academic Pursuits 🎓

Dr. Das began his academic journey at Calcutta University, where he obtained his B.Sc. in Physics (Honours), followed by an advanced M.Sc. from IIT Kharagpur, India. His academic interests during this time laid the foundation for his doctoral work. He pursued his Ph.D. research at Vidyasagar University, which focused on the structural, dielectric, and electrical properties of rare-earth-modified Pb(SnTi)O3 ferroelectric systems. This research work set the stage for his later contributions in material science.

Professional Endeavors 🔬

Dr. Das has worked on various significant research projects throughout his career. His expertise spans areas such as dilute magnetic semiconductors, nanofluid technology, and satellite communication. Notably, his work in Ka band propagation experiments at the Indian Institute of Technology, Kharagpur, aimed at improving satellite communication in tropical regions, showcased his innovative approach to solving real-world problems. Additionally, his hands-on experience with the development of NdFeB-based magnets further highlights his comprehensive skill set in experimental physics.

Contributions and Research Focus 🧠

Dr. Das’s research focus includes the study of ferroelectric materials, dilute magnetic semiconductors (DMS), magnetic nanofluids, and the thermal properties of materials. His research on Pb(SnTi)O3 ceramics, In2O3-based DMS, and Sm-Co nanoparticles offers in-depth insights into the electrical and magnetic properties of these materials, crucial for modern electronics and nanotechnology. His work on the thermal conductivity of magnetic nanofluids has also led to advancements in the field of heat transfer and energy efficiency.

Impact and Influence 🌍

Dr. Das’s work has had a significant impact on the fields of material science and nanotechnology. His publications in high-impact journals like Materials Science and Engineering: B, Journal of Electronic Materials, and Journal of Thermal Analysis and Calorimetry have influenced future research in ferroelectric materials, magnetic semiconductors, and thermal management systems. His innovative research techniques and contributions are being widely cited, contributing to the growth of nanotechnology and its real-world applications.

Academic Citations 📖

Dr. Bhakti Pada Das has been widely cited in academic literature, particularly in the fields of ferroelectric materials and nanomaterials. With a diverse publication record, his research has garnered attention in leading scientific journals, making him a recognized scholar in material science. His most recent work on Fe-doped In2O3 nanoparticles in Materials Science and Engineering: B is one of his most cited articles, reflecting his influence in advancing knowledge in the domain of magnetic semiconductors.

Research Skills 🛠️

Dr. Das possesses a vast skill set in material preparation techniques, such as solid-state reaction methods, sol-gel processes, and arc melting & melt spinning for alloy preparation. His expertise in structural analysis using XRD (X-ray diffraction) and SEM (Scanning Electron Microscopy) enables him to conduct high-level material characterization. Additionally, he is proficient in magnetic and electrical property studies, particularly for dilute magnetic semiconductors and ferroelectric ceramics.

Teaching Experience 👨‍🏫

As an academic mentor, Dr. Das has taught a wide range of undergraduate and postgraduate courses in physics, particularly in materials science. His experience in guiding students through complex experimental setups and theoretical concepts makes him an outstanding educator. His ability to translate his advanced research knowledge into accessible teachings has inspired many future scientists and researchers.

Legacy and Future Contributions 🌱

Dr. Das’s legacy lies in his dedication to advancing knowledge in the field of material science. He is expected to continue contributing to the study of novel materials, particularly in nanotechnology and energy-efficient systems. His future research may focus on emerging fields like quantum materials and nanoelectronics, areas where his experience in dilute magnetic semiconductors and ferroelectric materials can be applied to push the boundaries of modern technology. Dr. Das’s continued work will undoubtedly impact both academic research and real-world applications, contributing to the development of sustainable technologies and cutting-edge materials that can shape the future of electronics, communication, and energy systems.

Publications Top Notes

Structural, magnetic and optical characterization of 5 atomic % Fe doped In2O3 dilute magnetic semiconducting nanoparticles

  • Authors: Bhakti Pada Das, Tapan Kumar Nath, Sourav Mandal, Ashes Shit, Palash Nandi, Subhasis Shit, Bishnu Chakraborty, Panchanan Pramanik
    Journal: Materials Science and Engineering: B
    Year: 2025

Magnetic and Optical Properties of Dilute Magnetic Semiconducting (In0.9Mn0.1)2O3 Nanoparticles

  • Authors: Bhakti Pada Das, Tapan Kumar Nath, Sourav Mandal, Ashes Shit, Bishnu Chakraborty, Subhasis Shit, Sananda Das, Palash Nandi, Panchanan Pramanik
    Journal: Journal of Electronic Materials
    Year: 2023

Structural, Microstructural, and Electrical Properties Study of Pb(Sn0.45Ti0.55)O3 Ceramics

  • Authors: Bhakti Pada Das, Bhabani Sankar Patnaik, Tanmaya Jena, Sailabhama Nayak, Geetanjali Nayak, Krishnamayee Bhoi, Uttam Sahu, Prasanta Kumar Mahapatra, Ram Naresh Prasad Choudhary, Subrata Karmakar, Hari Sankar Mohanty
    Journal: ECS Journal of Solid State Science and Technology
    Year: 2024

Room temperature ferromagnetism in chemically synthesized dilute magnetic semiconducting (In0.95Mn0.05)2O3 nanoparticles

  • Authors: Bhakti Pada Das, Akash Oraon, Tapan Kumar Nath, Tapasendra Adhikary, Shampa Aich, Panchanan Pramanik
    Journal: Journal of Materials Science: Materials in Electronics
    Year: 2020

Impact of magnetic field on the thermal properties of chemically synthesized Sm-Co nanoparticles based silicone oil nanofluids

  • Authors: Akash Oraon, Bhakti Pada Das, Monisha Michael, Tapasendra Adhikary, Purbarun Dhar, Shampa Aich, Sudipto Ghosh
    Journal: Journal of Thermal Analysis and Calorimetry
    Year: 2021

 

Prashant Thakur | Experimental methods | Best Researcher Award

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Assist. Prof. Dr. Prashant Thakur | Experimental methods | Best Researcher Award

Assistant Professor at Career Point University, Hamirpur | India

Dr. Prashant Thakur is an Assistant Professor in the Department of Physics and the Nodal Officer at the Center for Green Energy Research (CGER) at Career Point University, Hamirpur, Himachal Pradesh, India. He is ranked among the Top 0.5% of Researchers Worldwide (2024) by ScholarGPS®, California, US. His expertise lies in Materials Physics, particularly in superparamagnetic lanthanide-doped Mn-Zn ferrite nanoparticles. He has published 22 research articles and holds a patent titled “Superparamagnetic Nanoparticles and Method for Preparation Thereof”. Dr. Thakur has actively contributed to the development of environmentally sustainable technologies in the fields of nanomaterials and green energy.

👨‍🎓Profile

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🎓Education

Dr. Thakur earned his Ph.D. in Materials Physics from Jaypee University of Information Technology, Solan in 2019. He also holds a B.Ed. in Teaching Science and Maths from HP University, Shimla (2014), an M.Sc. in Materials Physics from Shoolini University, Solan (2013), and a B.Sc. in Non-Medical from HP University, Shimla (2011). His education laid a strong foundation in physics and material sciences, preparing him for groundbreaking research in nanomaterials, magnetism, and energy solutions.

🏢Professional Experience

Dr. Thakur is currently serving as an Assistant Professor at Career Point University, Hamirpur. He previously worked as an Assistant Professor in the Department of Physics at Akal College of Basic Sciences, Eternal University (Feb 2019 – Feb 2021). He has also been a Teaching Assistant in the Department of Physics and Materials Science at Jaypee University of Information Technology, Solan, from Aug 2014 – Nov 2018. His academic roles have involved teaching materials physics and guiding research in nanomaterials, particularly superparamagnetic nanoparticles and magnetic ferrites.

🏆Awards and Honors

Dr. Thakur has been ranked among the Top 0.5% of Researchers Worldwide (2024) by ScholarGPS®, USA, a prestigious recognition. He has also received the Best Poster Presentation Award at a National Conference at Shoolini University (2013). Additionally, he has been honored as a Resource Person at the e-workshop on “Materials and their Characterization” at Maharaja Agrasen University, H.P. in 2021. Dr. Thakur’s work has earned him multiple accolades and has significantly contributed to the scientific community.

🧠Research Focus

Dr. Prashant Thakur’s research focuses on the synthesis and characterization of nanomaterials for applications in magnetic materials, environmental remediation, and energy storage. His key interests include superparamagnetic lanthanide-doped Mn-Zn ferrites and their potential in magnetic and electromagnetic applications. His work on bismuth-doped barium hexaferrites and green-synthesized nanoparticles for antimicrobial and photocatalytic applications demonstrates his dedication to sustainable technology. Dr. Thakur is also engaged in exploring green energy solutions to contribute to a cleaner environment.

🔬Research Skills

Dr. Thakur possesses a diverse set of research skills in nanomaterials synthesis, X-ray diffraction, magnetic characterization, and optical properties analysis. He is highly skilled in microwave sintering, sol-gel processes, and citrate sol-gel methods for the development of ferrites and nanoparticles. His expertise in structural and morphological analysis using tools like SEM, TEM, and XPS further enhances his ability to investigate the properties of advanced materials. He also possesses deep experience in electromagnetic shielding, photocatalysis, and environmental applications of nanomaterials, contributing significantly to sustainable material science.

Publications Top Notes

Efficient removal of toxic dyes from water using Mn3O4 nanoparticles: Synthesis, characterization, and adsorption mechanisms

  • Authors: Kamal Kishore, Jaswinder Kaur, Yasser B. Saddeek, Meenakshi Sharma, Manpreet Singh, Prashant Thakur, Dr. Yogesh Kumar Walia, Madan Lal, R. Suman, A.S. Reddy, et al.
    Journal: Journal of Molecular Structure
    Year: 2025

Green synthesized Fe‐doped ZnO NPs using aloe vera gel: Antimicrobial, structural, optical and magnetic properties

  • Authors: Shreya Chauhan, Prashant Thakur, Kamal Kishore, Madan Lal, Pankaj Sharma
    Journal: Journal of the American Ceramic Society
    Year: 2025

Optimized electromagnetic shielding properties using bismuth-doped barium hexaferrite nanoparticles

  • Authors: Neha Thakur, Indu Sharma, Prashant Thakur, Khalid Mujasam Batoo, Sagar E. Shirsath, Gagan Kumar
    Journal: Polyhedron
    Year: 2025

Enhanced photocatalytic and antimicrobial properties of nickel-doped barium M-type hexaferrites synthesized via citrate sol-gel method

  • Authors: Indu Sharma, Neha Thakur, Yasser A.M. Ismail, K.A. Aly, Pankaj Sharma, K.M. Batoo, Prashant Thakur
    Journal: Inorganic Chemistry Communications
    Year: 2024

Improved magneto-dielectric response and dielectric characteristics of rare earth doped Ba and Co based U-type hexaferrite

  • Authors: Indu Sharma, Sunil Sharma, Prashant Thakur, Sumit Bhardwaj, Munisha Mahajan, Shubhpreet Kaur, Gagan Anand, Rohit Jasrotia, A Dahshan, H.I. Elsaeedy, Pankaj Sharma, Gagan Kumar
    Journal: Materials Chemistry and Physics
    Year: 2024

Olfa Turki | Experimental methods | Best Researcher Award

Published on by High Energy Physics

Assist. Prof. Dr. Olfa Turki | Experimental methods | Best Researcher Award

Faculty of Sciences , Tunisia

Olfa Turki is an accomplished Assistant Professor at FST with a deep expertise in Physics, particularly in materials science and piezoelectric nanocomposites. With a PhD in Physics and a Master’s in Condensed Matter Physics, Olfa has built a robust academic career. She has contributed extensively to the development of lead-free ceramics and nanocomposites for sensor technologies. Olfa is also an active participant in international research projects and has presented her findings at numerous conferences worldwide. Beyond academics, she is committed to societal development, having been a candidate in municipal elections in Sfax in 2022. Her research bridges the gap between theoretical studies and practical applications in energy storage and sensors.

👨‍🎓Profile

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🎓Education 

Olfa Turki holds a PhD in Physics from 2017, focusing on materials science, specifically piezoelectric nanocomposites. She completed her Master’s Degree in Condensed Matter Physics in 2013, which provided her with a strong foundation in solid-state physics. Her academic journey began with a Bachelor’s Degree in Physics in 2011, where she gained the knowledge that underpins her later research. Olfa’s educational background is complemented by her Baccalaureate in Mathematics from 2008, which further sharpened her analytical and problem-solving skills. Throughout her studies, Olfa has demonstrated a passion for scientific inquiry and a commitment to advancing knowledge in materials physics. Her academic qualifications are paired with hands-on experience in various scientific programs like Origin and Fullprof, enhancing her ability to analyze and present research data effectively. Olfa’s education continues to shape her innovative approach to solving complex scientific problems.

🏢Professional Experience 

Olfa Turki has accumulated a wealth of experience in teaching and research. She currently serves as an Assistant Professor at the Faculty of Sciences of Tunis (FST), where she teaches physics and conducts cutting-edge research. Olfa has also held contractual assistant positions at various institutions, including the Institute of Physics and Engineering (IPEIS) and the Institute of Information and Communication Technologies (ISGI), from 2015 to 2023. In these roles, she gained extensive experience in curriculum development, lecturing, and mentoring students. Olfa’s practical involvement in research is equally impressive, with significant contributions to projects on sensor autonomy and nanocomposite development. She has worked on national and international projects, collaborating with leading scientists in the field. Olfa has presented her work at various prestigious scientific conferences, both orally and in posters, solidifying her position as a respected researcher in her field.

🏆Awards and Honors

Olfa Turki has been recognized for her outstanding contributions to the field of material science and physics. While no formal awards are mentioned, her significant achievements in research, publications, and conference participation place her in high regard within the scientific community. Her work on piezoelectric nanocomposites and their application in sensor technologies has garnered attention, as evidenced by her numerous publications in high-impact journals such as Applied Surface Science and Ceramics International. In addition, Olfa’s involvement in international research programs like the AUF Research Support Program further highlights her scientific stature. Olfa’s role in municipal elections demonstrates her recognition as a leader in both academia and community involvement. Her ability to balance these responsibilities while maintaining a high standard of academic and research excellence showcases her dedication, which is often celebrated by her peers and colleagues.

🌍Research Focus 

Olfa Turki’s research focuses primarily on the development of lead-free ceramics and piezoelectric nanocomposites. Her work aims to improve the dielectric, ferroelectric, and electrocaloric properties of these materials, making them ideal candidates for use in sensor technologies, energy storage, and nanogenerators. Olfa has conducted in-depth studies on the effects of doping and substitution of various elements, such as lanthanides, to enhance the functional properties of ferroelectric ceramics. Her research has a direct application in creating more sustainable and efficient materials, particularly in the realm of green technologies. Moreover, Olfa explores the structural properties and microstructure of nanocomposites, offering innovative approaches for material synthesis and processing. Her recent international collaboration, NAPES, explores the development of nanocomposites for pressure sensors and energy harvesting, positioning her research at the intersection of advanced material science and applied technologies.

🧠Research Skills

Olfa Turki possesses a strong set of research skills that complement her work in materials science. She is proficient in using scientific programs such as Origin and Fullprof, tools that allow her to analyze complex data and model materials’ behavior. Olfa’s expertise in synthesis techniques, particularly sol-gel hydrothermal synthesis, enables her to create high-performance materials like piezoelectric nanocomposites and lead-free ceramics. Her ability to analyze and interpret dielectric, ferroelectric, and piezoelectric properties is a cornerstone of her research. Olfa is also adept in presenting her findings through oral and poster presentations at conferences, enhancing her scientific communication skills. Furthermore, she collaborates well within interdisciplinary teams and takes an active role in mentoring students, promoting research development. Her work is continually evolving, supported by her ability to stay updated on the latest scientific advancements and her commitment to collaborative research across international platforms.

Publications Top Notes

Sol-gel hydrothermal synthesis of lead-free BT nanoparticles for enhanced dielectric properties in PVDF nanocomposites

  • Authors: O. Turki, A. Slimani, S. Boufid, L. Seveyrat, V. Perrin, R. Ben Hassen, H. Khemakhem
    Journal: Applied Surface Science
    Year: 2025

Electrical, ferroelectric and electro-caloric properties of lead-free Ba₀.₈₅Ca₀.₁₅Ti₀.₉₅(Nb₀.₅Yb₀.₅)₀.₀₅O₃ multifunctional ceramic

  • Authors: I. Zouari, A. Dahri, O. Turki, V. Perrin, L. Seveyrat, Z. Sassi, N. Abdelmoula, H. Khemakhem, W. Dimassi
    Journal: Ceramics International
    Year: 2024

The effect of Erbium on physical properties of the BaCaTi(NbYb)O multifunctional ceramic

  • Authors: I. Zouari, O. Turki, L. Seveyrat, Z. Sassi, N. Abdelmoula, H. Khemakhem
    Journal: Applied Physics A
    Year: 2023

Ferroelectric Properties and Electrocaloric Effect in Dy₂O₃ Substitution on Lead‑Free NBT-6BT Ceramic

  • Authors: O. Turki, A. Slimani, I. Zouari, L. Seveyrat, Z. Sassi, H. Khemakhem
    Journal: Journal of Electronic Materials
    Year: 2022

Improved dielectric, ferroelectric, and electrocaloric properties by Yttrium substitution in NBT-6BT based ceramics

  • Authors: O. Turki, F. Benabdallah, L. Seveyrat, Z. Sassi, V. Perrin, H. Khemakhem
    Journal: Applied Physics A
    Year: 2022