Jagrutiba Gohil | Experimental methods | Best Researcher Award

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Ms. Jagrutiba Gohil | Experimental methods | Best Researcher Award

Department of Physics | Sardar Patel University | India

Ms. Jagrutiba Gohil is a dedicated PhD research scholar at Sardar Patel University, focusing on material science, specifically in photodetector materials like tin selenide (SnSe) and Indium Selenide (InSe) crystals. His research, which combines experimental crystal growth techniques and nanomaterials integration, explores self-powered photodetectors for optoelectronic applications. Jagrutiba is also an instructor at RPTP Science School and has made significant strides in both academic research and teaching.

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🎓 Early Academic Pursuits

Ms. Jagrutiba’s academic journey began with a Bachelor’s degree in Physics from Sardar Patel University, where he achieved a solid foundation in the subject. His Master’s degree in Physics (M.Sc. and M.Phil.) further deepened his knowledge and set the stage for his doctoral research. With a passion for research, he began his Ph.D. in 2020, focusing on the growth, characterization, and application of semiconductor materials. His educational background reflects a commitment to excellence and continuous learning.

💼 Professional Endeavors

Ms. Jagrutiba’s professional career spans multiple areas, including research, teaching, and academic support. As a PhD scholar, he has contributed immensely to the field of materials science. He also plays a pivotal role in mentoring postgraduate students and supporting their research efforts. In addition to his academic commitments, he serves as a Physics instructor at RPTP Science School, where he fosters student engagement through hands-on learning and real-world physics applications.

🔬 Contributions and Research Focus

Ms. Jagrutiba’s research focus primarily lies in developing self-powered photodetectors, utilizing tin selenide (SnSe) and Indium Selenide (InSe) crystals. His work explores self-biased and self-powered devices, which promise significant advancements in optoelectronics. He has contributed to 8 peer-reviewed publications, exploring crystal growth techniques, material characterization, and the integration of nanomaterials into functional devices. His high-quality research and innovative techniques have significantly impacted the field of materials science.

🌍 Impact and Influence

Through his cutting-edge research, Jagrutiba has had a lasting impact on the field of optoelectronics, specifically in the development of self-powered photodetectors. His work has paved the way for new technologies in optical metrology, nanomaterial integration, and self-biased systems. His collaborative efforts, leadership, and research contributions have enhanced the scientific community’s understanding of semiconductor materials and their applications.

📑 Academic Cites

Ms. Jagrutiba’s work has been widely cited in prestigious journals, contributing to the advancement of photodetection technology. His publications in journals like Optical Materials, Materials Chemistry and Physics, and RSC Advances have garnered attention for their novel methodologies and innovative research. His ability to translate complex scientific concepts into meaningful applications makes his work highly valuable to the academic community.

🛠️ Research Skills

Ms. Jagrutiba has acquired a range of specialized research skills throughout his career. These include:

  • Crystal growth techniques like Direct Vapor Transport (DVT)
  • Advanced material characterization (UV-Visible spectroscopy, Hall effect, resistivity measurements, etc.)
  • Synthesis of nanoparticles, thin films, and 2D materials using techniques like hydrothermal synthesis and electrophoresis
  • Device fabrication including photodetectors, Schottky diodes, and PEC-type solar cells

These skills allow him to develop cutting-edge devices and systems that advance both optoelectronics and materials science.

🏅Awards and Honors 

Ms. Jagrutiba’s efforts have been recognized through the SHODH Fellowship (2021-2023) by the Government of Gujarat, an award that underscores his research excellence and his contributions to materials science.

🌱 Legacy and Future Contributions

Ms. Jagrutiba’s future in research and education looks promising, as he continues to explore innovative material synthesis, device fabrication, and optical metrology techniques. His work aims to significantly impact the optoelectronics industry, with self-powered photodetectors that could revolutionize energy-efficient devices and sustainable technologies. As he progresses in his Ph.D. and teaching career, he hopes to inspire future generations of scientists, contributing to the advancement of material science and optoelectronics.

Publications Top Notes

Self-biased photoelectrochemical photodetector based on liquid phase exfoliated SnSe nanosheets

  • Authors: Jagrutiba D. Gohil, Sanjay A. Bhakhar, Megha Patel, Hiren Shantilal Jagani, V.M. Pathak
    Journal: Optical Materials
    Year: 2024

Self-powered photodetector based on direct vapour transfer (DVT) method grown tin selenide (SnSe) crystals

  • Authors: Jagrutiba Gohil, Vibhutiba Jethwa, Hirenkumar Shantilal Jagani, Ankit G. Dalvaniya, Vivek M. Pathak
    Journal: Journal of Alloys and Compounds
    Year: 2023

Stability & durability of self-driven photo-detective parameters based on Sn₁₋βSbβSe (β = 0, 0.05, 0.10, 0.15, 0.20) ternary alloy single crystals

  • Authors: Jagrutiba Gohil, Hirenkumar Jagani, Vijay Dixit, Abhishek Patel, V.M. Pathak
    Journal: RSC Advances
    Year: 2022

Self-powered anisotropic photo-responsive properties of tin mono-selenide (SnSe) photodetector

  • Authors: Jagrutiba Gohil, Hirenkumar Jagani, Abhishek Patel, V.M. Pathak
    Journal: Optical Materials
    Year: 2022

Enhanced visible-light photoresponse of DVT-grown Ni-doped SnSe crystal

  • Authors: Jagrutiba Gohil, Vibhutiba Jethwa, Vivek M. Pathak, Gunvant K. Solanki, Payal Chauhan, Alkesh B. Patel, Chetan Zankat, Nashreen Patel
    Journal: Journal of Materials Science: Materials in Electronics
    Year: 2022

Sonochemical exfoliation, characterization and photoresponse of MoS₀.₅Se₁.₅ nanosheets

  • Authors: Jagrutiba Gohil, Nashreen Patel, Sanjay A. Bhakhar, G.K. Solanki, K.D. Patel, V.M. Pathak, Chetan K. Zankat, Pratik M. Pataniya, Shubham U. Gupta
    Journal: Journal of Materials Science: Materials in Electronics
    Year: 2021

 

 

 

 

Jothi Lakshmanan | Experimental methods | Women Researcher Award

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Dr. Jothi Lakshmanan | Experimental methods | Women Researcher Award

N.K.R.Government Arts College for Women | India

Dr. L. Jothi is an accomplished Associate Professor of Physics with over 35 years of teaching experience at the UG, PG, and M.Phil. levels. Holding a Ph.D., M.Phil., and D.Litt. degrees, she has shaped and inspired countless students in the field of Material Science, Crystal Physics, Energy Physics, Biophysics, and Nanophysics. Her dedication to both teaching and research has garnered recognition across various national and international platforms.

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Early Academic Pursuits 🎓

Dr. Jothi completed her education at Bharathidasan University, Tiruchirappalli, where she pursued her B.Sc., M.Sc., M.Phil., and Ph.D. degrees. Her educational journey laid the foundation for a rich career in academic leadership and scientific research. She has remained committed to her academic pursuits throughout her career, driven by a passion for advancing knowledge and creating meaningful learning experiences for her students.

Professional Endeavors 🌟

With a career spanning over three decades, Dr. Jothi has held numerous prestigious administrative positions. She has served as the Principal, Vice Principal, Head of the Department of Physics, and Research Advisor. Dr. Jothi’s leadership roles reflect her management skills, as well as her commitment to academic excellence. She has also served as a Senate Member and in key positions at Periyar University and Madras University, significantly influencing the direction of higher education.

Contributions and Research Focus 🔬

Dr. Jothi’s research interests include Material Science, Crystal Physics, Energy Physics, Biophysics, and Nanophysics. With over 200 papers published across national and international journals and conferences, her research has had a profound impact on these fields. As a mentor, she has guided Ph.D. and M.Phil. students, producing significant scholarly work and research contributions that have shaped the academic landscape.

Impact and Influence 🌍

Dr. Jothi’s influence extends beyond her own academic institution. She has been an active resource speaker at international conferences and workshops, sharing her knowledge on various scientific subjects. As the Naan Mudhalvan Program Coordinator, she has led skill development courses for undergraduate students, ensuring that future generations are well-prepared for the challenges of the modern scientific world.

Research Skills 🧠

Dr. Jothi has demonstrated exceptional research skills, ranging from material characterization to crystal structure analysis. She has a unique ability to integrate advanced scientific techniques in her research, addressing both fundamental and applied aspects of physics. Dr. Jothi’s multidisciplinary approach allows her to explore and develop innovative solutions in nanophysics, biophysics, and energy physics.

Teaching Experience 👩‍🏫

With 35 years of teaching experience, Dr. Jothi has played an instrumental role in educating and mentoring countless students. Her dynamic teaching style integrates theoretical knowledge with practical experience, fostering critical thinking among her students. She has shaped the curricula and teaching methodologies for various programs across Periyar University and other affiliated institutions, ensuring students receive a comprehensive education in physics.

Awards and Honors 🏆

Dr. Jothi has been the recipient of numerous prestigious awards for her academic and research excellence. Some of the key recognitions include:

  1. IND-SL Pride of Education Awards – Best Researcher Award (2024)
  2. ASTRA 2023 – International Best Researcher Award
  3. Global Iconic Education Award 2022 – Best Researcher
  4. ISSN International Best Researcher Award (IIRA-2022)
  5. Bharat Ratna Dr. Radhakrishnan Gold Medal Award (2019)
  6. Best Teacher Award (2022)
    These accolades reflect Dr. Jothi’s profound impact on education and research.

Legacy and Future Contributions 🌱

Dr. Jothi’s legacy is marked by her continuous commitment to research excellence and student development. As a visionary educator, her future contributions are focused on pushing the boundaries of material science and nanotechnology. She aims to further her research into the applications of nanophysics in biomedical technologies and energy systems. As a mentor, she plans to continue guiding the next generation of scientists and innovators, ensuring that her legacy lives on in the work of her students and future researchers.

Publications Top Notes

Synthesis and controllable growth of 2–methylquinolinium L-malate single crystal for optical and spectroscopic applications
  • Authors: Vasughi, R., Kayalvizhi, M., Jothi, L., Abdullah, M.M., Albargi, H.B.
    Journal: Journal of Molecular Liquids
    Year: 2024
Synthesis, spectroscopic, optical, thermal and mechanical characterization of nonlinear proline oxalate single-crystals
  • Authors: Akilandeswari, S., Jothi, L., Elkhatib, W.F., Abu Ali, O.A., El-Sayyad, G.S.
    Journal: Optical and Quantum Electronics
    Year: 2023
Growth, structural, optical, Z-scan and dielectric analysis of 2-Amino-4-methylpyridinium 2-chloro 4-nitro benzoate crystals for third order non-linear optical applications
  • Authors: Venkatesan, K., Kayalvizhi, M., Jothi, L., Vasuki, G.
    Journal: Journal of Molecular Structure
    Year: 2022
Fabrication, Characterization and Optical Investigation of Semi-organic Nonlinear Alanine Hippurate Single Crystals
  • Authors: Akilandeswari, S., Jothi, L., Pal, K., Abd Elkodous, M., El-Sayyad, G.S.
    Journal: Journal of Cluster Science
    Year: 2022
Investigation on synthesis, growth, optical, mechanical, dielectric and third order non-linear optical properties of cadmium chloride monohydrate doped sulphamic acid crystals for nonlinear optical device fabrications
  • Authors: Anandaraj, L., Jothi, L.
    Journal: Journal of Molecular Structure
    Year: 2022

 

 

Varun Kumar Singh | Experimental methods | Best Researcher Award

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Mr. Varun Kumar Singh | Experimental methods | Best Researcher Award

Madan Mohan Malaviya University of Technology, Gorakhpur | India

Varun Kumar Singh is a dedicated Ph.D. candidate at Madan Mohan Malaviya University of Technology, Gorakhpur, where he is advancing his research in Energy Technology and Management. He has an impressive academic track record, having completed his M.Tech in Energy Technology and Management with an 8.09 CGPA. Prior to his graduate studies, he obtained his B.Tech in Mechanical Engineering from MJP Rohilkhand University, Bareilly. His academic pursuits reflect his passion for renewable energy systems and sustainable technologies.

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Early Academic Pursuits 📚

Varun Kumar Singh’s academic journey began at M.G. Inter College, Gorakhpur, where he excelled in both High School (71%) and Intermediate (78.2%) exams, establishing a strong foundation for his future studies. His curiosity for mechanical engineering led him to pursue a B.Tech in Mechanical Engineering from MJP Rohilkhand University, Bareilly. Motivated by the potential of sustainable energy solutions, he later advanced his studies with a M.Tech and is currently in the process of earning his Ph.D..

Professional Endeavors 💼

Varun’s professional growth includes valuable summer training in CATIA and workshop processes at the Central Tool Room and Training Centre, Bhubaneswar. Additionally, he gained practical exposure during an industrial training at Parbati H.E. Project Stage-II, NHPC Limited. These professional experiences have enhanced his ability to apply theoretical knowledge to real-world energy systems, particularly in energy storage and thermal management.

Contributions and Research Focus 🔬

Varun Kumar Singh’s research is centered on nano-enhanced Phase Change Materials (PCMs) for solar desalination and thermal energy storage systems. His publications, including in prestigious journals like Materials Today Sustainability and Heat Transfer, focus on the thermo-economic performance of solar distillation systems. He explores the role of nano-additives like TiO2 and CuO in enhancing thermal storage materials for renewable energy solutions, aiming to improve efficiency in energy storage and thermal management.

Impact and Influence 🌍

Varun’s contributions have made significant strides in sustainable energy research. His studies have had a measurable impact on enhancing the performance of solar energy systems, which is critical for promoting green technologies and combating climate change. By working on nano-enhanced energy storage solutions, he is contributing to the global shift towards more sustainable and efficient energy resources. His research influences both academia and industry, with a focus on practical applications in real-world energy systems.

Research Skills 🔧

Varun has developed advanced research skills in the areas of thermo-economic analysis, solar thermal systems, and energy storage materials. He is proficient in experimental setups, simulation tools, and analytical techniques, allowing him to evaluate nano-enhanced PCMs and their thermal properties. His expertise in solar energy systems and thermal storage positions him as an expert in the field of renewable energy research.

Legacy and Future Contributions 🌱

Varun’s legacy lies in his ongoing commitment to improving energy storage and solar technologies. As a Ph.D. candidate, his future contributions are expected to drive innovations in renewable energy solutions, with a particular focus on energy-efficient systems. His work on nano-enhanced PCMs and solar desalination will likely lead to advancements in energy sustainability, ensuring that his impact on the field of energy management continues to grow.

Publications Top Notes

Multi-objective optimization of novel phase change material-based desalination system using genetic algorithms

  • Authors: Singh, V.K., Kumar, D., Tripathi, R.J.
    Journal: Journal of Energy Storage
    Year: 2024

Heat transfer analysis of solar distillation system by incorporating nano-enhanced PCM as thermal energy-storage system

  • Authors: Singh, V.K., Kumar, D.
    Journal: Heat Transfer
    Year: 2024

Development, characterization and thermo-physical analysis of energy storage material doped with TiO2 and CuO nano-additives

  • Authors: Singh, V.K., Kumar, D.
    Journal: Journal of the Indian Chemical Society
    Year: 2024

An experimental investigation and thermo-economic performance analysis of solar desalination system by using nano-enhanced PCM

  • Authors: Singh, V.K., Kumar, D.
    Journal: Materials Today Sustainability
    Year: 2024

Experimental Analysis of the Performance of Indirect Evaporative Cooling System with Water and Nano-fluid

  • Authors: Kumar, A., Kumar, D., Tripathi, R.J., Singh, V.K., Kumar, P.
    Journal: NanoWorld Journal
    Year: 2023

 

 

Parveen A | Experimental methods | Best Researcher Award

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Dr. Parveen A | Experimental methods | Best Researcher Award

AVS College of Arts & Science, Salem | India

Dr. A. Parveen is a passionate physicist and educator with a Ph.D. in Physics from Periyar University, India. Her research primarily focuses on nanomaterials, vibrational studies, and spectroscopy. With over 8 years of experience in academia, she is dedicated to advancing the field of environmental applications through photocatalysis and nanocomposites. Dr. Parveen combines her strong academic background with extensive teaching and research contributions, earning recognition for her work in material science.

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Early Academic Pursuits 🎓

Dr. Parveen’s academic journey began at Sri Sarada College for Women, Salem, where she completed her B.Sc., M.Sc., and M.Phil. in Physics, all with distinction. Her deep interest in material science and physics led her to pursue a Ph.D. from Government Arts College, Salem, under Periyar University. The focus of her Ph.D. thesis was on the synthesis of metal oxide nanoparticles and their applications as visible light-active photocatalysts for environmental applications.

Professional Endeavors 🏢

Dr. Parveen currently holds the position of Assistant Professor at AVS College of Arts & Science, Salem, where she imparts knowledge to undergraduate and postgraduate students. She has previously served as an Assistant Professor at Shri Sakthikailassh Women’s College and Salem Polytechnic College. Her teaching expertise spans across multiple areas in physics, including nano materials, spectroscopy, and environmental science. Dr. Parveen is committed to mentoring students and fostering their passion for research and scientific inquiry.

Contributions and Research Focus 🔬

Dr. Parveen’s research is centered around nanomaterials, their synthesis, characterization, and applications in photocatalysis for environmental remediation. Some of her major works include:

  • V2O5/Ppy composites for hydrogen evolution and organic pollutant degradation.
  • MnO2/PPy hybrid catalysts designed for visible light photocatalytic activity.
  • ZrO2-based catalysts coupled with PPy to enhance photocatalytic performance.

These contributions have significantly advanced the field of material science, with applications in renewable energy and environmental sustainability.

Academic Cites 📑

Her research is gaining significant recognition, with several of her articles cited by peers in the scientific community. This reflects the growing influence of her work in the field of nanomaterials and photocatalysis. Dr. Parveen’s ability to contribute novel solutions to environmental challenges through innovative material designs has made her a promising figure in sustainable energy research.

Research Skills ⚙️

Dr. Parveen is proficient in nanomaterial synthesis, characterization techniques such as spectroscopy, and vibrational studies. She has hands-on experience with a range of material characterization techniques and works with complex computational models in density functional theory (DFT). Her research skills also extend to the evaluation of photocatalytic performance in various systems, positioning her as an expert in this area.

Teaching Experience 🎓

With over 8 years of teaching experience, Dr. Parveen has honed her skills in delivering quality education. She has taught at prominent institutions and has participated in various workshops and seminars to further enhance her pedagogical approaches. Her expertise in nanomaterials and spectroscopy is shared with students in both undergraduate and postgraduate programs.

Legacy and Future Contributions 🌟

Dr. Parveen’s work has the potential to lead to significant breakthroughs in the development of environmentally friendly energy solutions. Her photonics research on visible light photocatalysis and nanocomposites could pave the way for sustainable technology in the future. Through continuous research, teaching, and mentorship, Dr. Parveen is well-positioned to make lasting contributions to both science and education in the years to come.

Publications Top Notes

A dual-purpose photocatalytic reaction for hydrogen evolution and simultaneous organic pollutant degradation of V2O5/Ppy based composite photocatalyst

  • Authors: Parveen, A., Surumbarkuzhali, N., Meeran, M.N., BoopathiRaja, R., Parthibavarman, M.
    Journal: Chemical Physics Impact
    Year: 2024

Design of SnO2 nanorods/polypyrrole nanocomposite photocatalysts for photocatalytic activity towards various organic pollutants under the visible light irradiation

  • Authors: Parveen, A., Surumbarkuzhali, N., Shkir, M., Ahn, C.-H., Park, S.-H.
    Journal: Inorganic Chemistry Communications
    Year: 2022

Spatial separation of photo-generated carriers and enhanced photocatalytic performance on ZrO2 catalysts via coupling with PPy

  • Authors: Parveen, A., Surumbarkuzhali, N.
    Journal: Inorganic Chemistry Communications
    Year: 2020

Strategies and insights towards the high performance visible light photocatalytic activity of MnO2/PPy hybrid catalysts: challenges and perspectives

  • Authors: Parveen, A., Surumbarkuzhali, N.
    Journal: Journal of Materials Science: Materials in Electronics
    Year: 2020

 

 

Thiyagarajan M | Experimental methods | Best Researcher Award

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Dr. Thiyagarajan M | Experimental methods | Best Researcher Award

JNN Institute of Engineering | India

Dr. Thiyagarajan M. is an accomplished physicist with a strong foundation in material synthesis and crystal growth. He holds a Ph.D. in Physics from Vellore Institute of Technology (VIT) and has been recognized as a Research Supervisor by Anna University. His academic journey and professional career reflect his deep commitment to research and education, focusing on nonlinear optical applications and the development of advanced materials. He is currently an Assistant Professor in the Department of Physics at JNN Institute of Engineering, Chennai.

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Early Academic Pursuits 🎓

Dr. Thiyagarajan’s academic journey began with a Bachelor of Science (B.Sc.) in Physics from Sri Vidya Mandir Arts & Science College (2011), where he excelled with a 76.2%. His passion for physics led him to pursue a Master of Science (M.Sc.) in Physics from Periyar University, achieving a 70.7%. His academic brilliance culminated in a Ph.D. in Physics, awarded by VIT-Chennai in July 2024, under the guidance of Dr. G. Vinitha.

Professional Endeavors 💼

Dr. Thiyagarajan’s professional career reflects a balance between teaching and research. He is dedicated to fostering a progressive and competitive work culture in academia. As an Assistant Professor at JNN Institute of Engineering since September 2024, he strives to bring innovative approaches to teaching physics while guiding students in research projects. His efforts have earned him recognition for his outstanding communication skills and his ability to inspire students to reach their academic potential.

Contributions and Research Focus 🔬

Dr. Thiyagarajan’s primary research focus is on the synthesis, growth, and characterization of novel materials, particularly those with applications in optoelectronics and nonlinear optics (NLO). His research on morpholinium-based crystals has paved the way for significant contributions to material science. He utilizes low-temperature solution growth techniques and the SR method to create organic-based single crystals with enhanced thermal, mechanical, and optical properties. These contributions are critical for advancing technologies in electronic devices, laser applications, and advanced sensors.

Research Skills 🧪

Dr. Thiyagarajan possesses a broad spectrum of research skills, including expertise in X-ray diffraction (XRD), thermogravimetric analysis (TGA), UV-Vis-NIR spectroscopy, and chemical etching. His work with high-purity chemicals, along with his proficiency in laser damage threshold and Z-scan measurements, has enabled him to make cutting-edge contributions in the field of material characterization. His expertise in low-temperature crystal growth and crystal cutting/polishing is instrumental in creating materials with exceptional properties.

Teaching Experience 👨‍🏫

As an Assistant Professor at JNN Institute of Engineering, Dr. Thiyagarajan brings a wealth of teaching experience to the classroom. His passion for teaching physics drives him to use innovative methodologies that encourage active learning and critical thinking. He is known for his ability to simplify complex concepts and make them accessible to students at all levels. His commitment to student development extends beyond the classroom, as he actively mentors students in research projects and guides them through academic challenges.

Awards and Honors 🏆

Dr. Thiyagarajan’s research and teaching excellence have been recognized with several awards and honors:

  • Best Poster Presentation Award at the 21st National Seminar on Crystal Growth and Application (2018)
  • Life Membership in the Indian Association for Crystal Growth (Membership No. 029/2012)
  • Recognition as a Research Supervisor by Anna University
  • Completion of the NPTEL Online Course on Structural Analysis of Nanomaterials with an Elite Grade in August 2024

Legacy and Future Contributions 🔮

Dr. Thiyagarajan is poised to continue making substantial contributions to material science and optoelectronics in the years to come. His innovative work in crystal engineering and nonlinear optical materials lays the foundation for future developments in next-generation optoelectronic devices. With his continuous commitment to research, Dr. Thiyagarajan aims to push the boundaries of material science and contribute to the global scientific community. As his research continues to evolve, his legacy will undoubtedly inspire future generations of scientists and engineers.

Publications Top Notes

Simulation analysis on furnace pressure for reducing the impurities concentrations distribution during the growth of mc-Si ingot by DS process: Solar cell applications

  • Authors: Sekar, S., Maadhu, T., Gurusamy, A., Gandhiraj, V., Perumalsamy, R.
    Journal: Chemical Physics
    Year: 2024

Novel Metal-Organic Framework and Crystal Engineering of Bismorpholinium Mercury(II) Tribromo Chloride (BMMC) for Optoelectronic Applications

  • Authors: Maadhu, T., Jauhar, R.M., Raja, A., Gandhiraj, V., Senthil Pandian, M.
    Journal: Crystal Growth and Design
    Year: 2024, 24(4), pp. 1632–1647

Enhancement of optical, electrical, mechanical and thermal properties with Hirshfeld surface analysis of organic piperazine para-nitrophenol crystals: An effective material for NLO device fabrication

  • Authors: Kannan, V., Maadhu, T., Periyasamy, P., Gandhiraj, V., Periyasamy, P.
    Journal: Journal of Solid State Chemistry
    Year: 2024, 330, 124457

Synthesis, experimental and theoretical studies of morpholinium bromide single crystal for NLO application

  • Authors: Maadhu, T., Jauhar, R.O.M., Raja, A., Pandian, M.S., Periyasamy, P.
    Journal: Journal of Molecular Structure
    Year: 2023, 1294, 136522

Design, crystal growth and characterizations of novel bis morpholinium zinc bromide single crystals for optoelectronic applications

  • Authors: Maadhu, T., Gandhiraj, V.
    Journal: Optical Materials
    Year: 2023, 138, 113694

Growth, structural, optical, thermal and mechanical properties of morpholinium 3,5-Dinitrosalicylate single crystals for nonlinear optical applications

  • Authors: Maadhu, T., Vinitha, G.
    Journal: Journal of Materials Science: Materials in Electronics
    Year: 2022, 33(26), pp. 20911–20928

 

 

 

Duyang Zang | Experimental methods | Best Researcher Award

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Prof. Duyang Zang | Experimental methods | Best Researcher Award

Northwestern Polytechnical University | China

Duyang Zang is a professor in the School of Physical Science and Technology at Northwestern Polytechnical University, China. He holds a PhD in Physics from Paris-Sud University (2010) and has since become a leading figure in soft matter physics. His research spans topics such as capillary phenomena, interfacial rheology, and the dynamics of droplets and bubbles, with a particular focus on acoustic levitation. With a remarkable academic record, Zang has authored over 90 peer-reviewed journal papers and two books.

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🎓 Early Academic Pursuits

Duyang Zang’s academic journey began with a deep interest in physics, leading him to earn his PhD in 2010 from Paris-Sud University. During his doctoral studies, he focused on complex systems and their physical behaviors at the interfaces, an area that would become central to his later research career. His foundational work laid the groundwork for his specialization in soft matter physics.

💼 Professional Endeavors

Currently, Zang is a professor at Northwestern Polytechnical University, where he continues to lead cutting-edge research in soft matter dynamics. Over the past decade, Zang has managed and contributed to over 10 major scientific projects funded by the National Natural Science Foundation of China and the Ministry of Education. His research is not limited to traditional soft matter studies but also explores the innovative application of acoustic levitation to manipulate soft matter systems.

🔬 Contributions and Research Focus

Zang’s work is at the forefront of soft matter physics, focusing on the physics and dynamics of interfaces in complex and soft matter systems. His key research areas include:

  • Capillary phenomena: Understanding how liquids interact with surfaces at a microscopic level.
  • Interfacial rheology: Investigating how soft materials behave under stress and deformation.
  • Droplet and bubble dynamics: Studying the movement, stability, and behavior of droplets and bubbles in various systems.
  • Phase behaviors: Exploring how materials transition between different phases, such as from liquid to gas or solid to liquid.

A particularly innovative aspect of his research is the exploration of combining soft matter physics with acoustic levitation, which enables novel ways of manipulating matter without physical contact.

📈 Academic Cites

Zang’s extensive body of work is reflected in his impressive citation count of more than 2,700 citations, with an h-index of 30 (as per Scopus). This demonstrates his significant and sustained influence in the scientific community, with numerous researchers building upon his findings to explore new areas of study.

🧠 Research Skills

Zang is recognized for his strong analytical and experimental research skills, which have enabled him to conduct groundbreaking work on interfacial phenomena and phase transitions. His ability to integrate theoretical models with experimental observations has made him a leader in both fundamental and applied research in soft matter physics. Additionally, his work in acoustic levitation showcases his ability to merge innovative technologies with classical research areas.

🏫 Teaching Experience

As a professor, Zang is deeply committed to the education and mentorship of the next generation of physicists. He has taught various courses, including those on soft matter physics and complex systems. His teaching extends beyond formal classrooms as he also participates in academic panels, conferences, and research guidance, offering valuable mentorship to graduate students and young researchers.

🏅 Awards and Honors

Duyang Zang’s work has earned him prestigious recognitions such as:

  • Top 10 Emerging Scientists Award of China (2018)
  • IAAM Scientist Medal (2021)
  • Fellow of the International Association of Advanced Materials (IAAM)
    His achievements are further underscored by his role on the editorial boards of leading journals like European Physical Journal E, Frontiers in Soft Matter, and Soft Matter.

🌟 Legacy and Future Contributions

Zang’s contributions have set the stage for continued advances in soft matter physics, especially in its application to new technologies and innovative materials. As a thought leader, he is likely to continue influencing the field by addressing complex challenges, such as dynamic interfaces and material design. Zang’s work, particularly in acoustic levitation, could open new frontiers in areas like biotechnology, nanotechnology, and advanced manufacturing.

  Publications Top Notes

Anisotropic growth dynamics of liquid bridge during droplet coalescence under acoustic levitation

  • Authors: Hongyue Chen, Xianyu Nong, Bokun Zhao, Wenxuan Zhong, Kangqi Liu, Zhen Chen, Duyang Zang
    Journal: Physical Review Fluids
    Year: 2025

Atomization by Acoustic Levitation Facilitates Contactless Microdroplet Reactions

  • Authors: Xiaoxu Li, Xianyu Nong, Chenghui Zhu, Xufeng Gao, Huan Chen, Xu Yuan, Dong Xing, Lu Liu, Chiyu Liang, Duyang Zang et al.
    Journal: Journal of the American Chemical Society
    Year: 2024

Ultrasound induced grain refinement of crystallization in evaporative saline droplets

  • Authors: Xiaoqiang Zhang, Hongyue Chen, Yuhan Wang, Xin Gao, Zhijun Wang, Nan Wang, Duyang Zang
    Journal: Ultrasonics Sonochemistry
    Year: 2024

Extraordinary stability of surfactant‐free bubbles suspended in ultrasound

  • Authors: Xiaoliang Ji, Wenxuan Zhong, Kangqi Liu, Yichen Jiang, Hongyue Chen, Wei Zhao, Duyang Zang
    Journal: Droplet
    Year: 2024

Toward Enhanced Aerosol Particle Adsorption in Never‐Bursting Bubble via Acoustic Levitation and Controlled Liquid Compensation

  • uthors: Xiaoliang Ji, Pingsong Jiang, Yichen Jiang, Hongyue Chen, Weiming Wang, Wenxuan Zhong, Xiaoqiang Zhang, Wei Zhao, Duyang Zang
    Journal: Advanced Science
    Year: 2023

 

John Goff | Experimental methods | Best Researcher Award

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Prof. John Goff | Experimental methods | Best Researcher Award

University of Lynchburg | United States

John Eric Goff is a Professor of Physics at the University of Lynchburg, with extensive experience in the field of sports engineering, fluid dynamics, and computational physics. Over the course of his career, he has made significant contributions to the study of aerodynamics in sports, the physics of surfaces, and optics. His academic journey began at Vanderbilt University, where he earned his B.S. in Physics and Mathematics in 1992, followed by an M.S. in Physics and Ph.D. in Physics from Indiana University. His thesis on the photon-drag effect in simple metals set the stage for his further academic pursuits and professional contributions.

👨‍🎓 Profile

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Early Academic Pursuits 🎓

Dr. Goff’s academic path began with a passion for physics and mathematics, which led him to Vanderbilt University for his undergraduate studies. From there, he continued his education at Indiana University, where he completed both his Master’s and Ph.D. His dissertation work focused on the photon-drag effect in simple metals, a topic that would shape much of his future research endeavors. His early academic experiences, including roles as an Associate Instructor and a Physics Instructor, honed his teaching abilities and deepened his understanding of the complexities of condensed matter physics.

Professional Endeavors 🌍

Dr. Goff has held notable academic positions at institutions such as Lynchburg College (now University of Lynchburg), where he served as Chair of the Department of Physics and Professor of Physics. His roles also include a Visiting Professorship at the University of Sheffield (UK), allowing him to engage with an international community of scientists and engineers. His research endeavors have spanned several interdisciplinary fields, including sports physics, fluid dynamics, and computational simulations of physical systems. His experience teaching and researching in these diverse areas has made him a prominent figure in the academic and sports engineering communities.

Contributions and Research Focus 🔬

Dr. Goff is best known for his work in the physics of sports, where he investigates the aerodynamics of soccer balls, the physics of cycling, and the design of sports equipment like climbing helmets. His research has led to numerous articles in prestigious journals, including studies on soccer ball aerodynamics and Tour de France modeling. Dr. Goff’s research has practical applications in both engineering and sports performance, and he continues to explore new avenues in fluid dynamics, sports engineering, and numerical simulations. He is also dedicated to mentoring students, helping them bridge the gap between theory and practical application in physics.

Impact and Influence 🌟

Dr. Goff’s work has had a profound impact on both the academic community and the sports industry. His research on soccer ball flight trajectories, cycling performance modeling, and sports equipment design has influenced the way engineers design and test sports equipment. His contributions to sports engineering education and his advocacy for using numerical modeling in the classroom have reshaped how students approach problem-solving in physics. Through his research articles, teaching, and collaborations, Dr. Goff has established himself as a key figure in the application of physics to real-world sports challenges.

Academic Cites 📚

Dr. Goff’s work is widely cited in the academic community, with contributions to journals such as the American Journal of Physics, Journal of Sports Engineering and Technology, and European Journal of Physics. His publications on soccer ball aerodynamics, Tour de France modeling, and sports engineering are often referenced by researchers in the field. His citation record attests to his influence in applied physics, particularly in the study of fluid dynamics and sports biomechanics.

Research Skills 🔧

Dr. Goff possesses a broad set of research skills that include expertise in numerical simulations, fluid dynamics modeling, and computational physics. He is fluent in programming languages such as FORTRAN and Mathematica, as well as Linux systems, making him well-equipped to tackle complex physical simulations. His ability to collaborate across disciplines, combining theoretical insights with practical engineering solutions, has resulted in innovative studies that bridge the gap between physics and sports technology.

Teaching Experience 📖

With over two decades of teaching experience, Dr. Goff has taught a wide variety of courses at both the undergraduate and graduate levels. His courses span topics from classical mechanics and electromagnetic theory to quantum mechanics and computational physics. He has also developed general education courses like Physics of Sports, helping non-science majors engage with physics in a way that connects to their everyday lives. Dr. Goff is known for his student-centered teaching style, using interactive techniques and real-world examples to foster a deep understanding of complex concepts.

Awards and Honors 🏆

Dr. Goff’s contributions to teaching, research, and student mentoring have been recognized with numerous awards, including the James A. Huston Award for Excellence in Scholarship and the Faculty Award for Excellence in Research Mentoring at the University of Lynchburg. He has also been honored with the Sigma Nu Herbert Bruce Award for being an outstanding faculty member, and multiple Frank R. Haig Prizes for best papers from four-year colleges at the American Association of Physics Teachers meetings. These accolades reflect Dr. Goff’s excellence in both academic scholarship and mentorship.

Legacy and Future Contributions 🔮

Dr. Goff’s legacy lies in his innovative teaching methods and his impactful research at the intersection of physics and sports engineering. His continued research will likely focus on improving sports performance modeling and engineering design. Through his research projects with students, his mentorship will shape the next generation of physicists, engineers, and sports scientists. Dr. Goff’s future contributions will undoubtedly advance our understanding of fluid dynamics and its applications to sports technologies, influencing both academic and practical fields for years to come.

  Publications Top Notes

The Aerodynamics of New Design Soccer Balls Using a Three-Dimensional Printer

  • Authors: Sungchan Hong, John Eric Goff, Takeshi Asai
    Journal: Applied Sciences
    Year: 2024

Aerodynamic comparisons between Al Rihla and recent World Cup soccer balls

  • Authors: John Eric Goff, Sungchan Hong, Takeshi Asai
    Journal: Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology
    Year: 2022

Multiple approaches to incorporating scattering states in non-degenerate perturbation theory

  • Authors: John Goff
    Journal: American Journal of Physics
    Year: 2020

Influence of Surface Properties on Soccer Ball Trajectories

  • Authors: John Goff
    Journal: Proceedings
    Year: 2020

Measurements of the Flight Trajectory of a Spinning Soccer Ball and the Magnus Force Acting on It

  • Authors: John Goff
    Journal: Proceedings
    Year: 2020