Pankaj Khirade | Experimental methods | Best Researcher Award

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Dr. Pankaj Khirade | Experimental methods | Best Researcher Award

Shri Shivaji Science College, Amravati | India

Dr. Pankaj P. Khirade is an Assistant Professor at Shri Shivaji Science College, Amravati, India, specializing in material science. With a Doctorate in Physics (Material Science) from Dr. Babasaheb Ambedkar Marathwada University, he is renowned for his expertise in synthesizing and characterizing nanoscale materials such as ferrites, perovskites, nanocomposites, multiferroics, and radiation shielding materials. His contributions to scientific journals and international research establish him as an emerging figure in the academic community.

๐Ÿ‘จโ€๐ŸŽ“Profile

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Early Academic Pursuits ๐ŸŽ“

Dr. Khirade’s academic journey began with a Bachelor of Science degree in Physics, Chemistry, and Computer Science from Deogiri College, Aurangabad, followed by his Master of Science in Physics (Material Science) from Garware College, Pune in 2009. His commitment to academic excellence led him to pursue a Ph.D. at Dr. Babasaheb Ambedkar Marathwada University, where he focused on the study of nanoscale materials and their applications in material science.

Professional Endeavors ๐Ÿ’ผ

Currently serving as an Assistant Professor at Shri Shivaji Science College, Dr. Khirade also contributes as a Reviewer for several SCI and Scopus-listed journals, showcasing his active involvement in the academic and research community. His work is grounded in multidisciplinary research, combining material science with chemistry and physics to advance the field of nanoscale material synthesis and characterization.

Contributions and Research Focus ๐Ÿ”ฌ

Dr. Khirade’s research interests are deeply focused on the synthesis and characterization of advanced materials like ferrites, nanocomposites, and multiferroics, especially their functional applications in various industrial sectors. With a particular focus on radiation shielding materials, his work has the potential to impact sectors like nuclear energy and electronics. He has published 37 articles in SCI and Scopus-listed journals, contributing extensively to the advancement of material science.

Impact and Influence ๐ŸŒ

Dr. Khiradeโ€™s research has contributed significantly to material science, particularly in the area of nano-materials. His publications in reputed journals and the patent he holds further emphasize his impact. Additionally, his membership in professional organizations like the Indian Science Congress Association and the American Chemical Society illustrates his international recognition and his commitment to furthering research at a global level.

Citations๐Ÿ“š

A total of 1486 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citationsย  1486
  • h-indexย  ย  ย  ย  22
  • i10-indexย  ย  ย 30

Research Skills ๐Ÿ› ๏ธ

Dr. Khirade has mastered various research techniques, including synthesis of advanced materials, X-ray diffraction, scanning electron microscopy, and nanomaterial characterization. He is also skilled in research writing, project management, and critical thinking, all of which contribute to his leadership in the academic field.

Teaching Experience ๐Ÿ“š

With over a decade of experience, Dr. Khirade teaches undergraduate and postgraduate students in Physics at Shri Shivaji Science College. He not only imparts knowledge but also inspires future scientists through his engaging lectures on material science and nanotechnology.

Awards and Honors ๐Ÿ†

Dr. Khiradeโ€™s dedication and excellence in research and teaching have earned him numerous accolades:

  • Life Member of Indian Science Congress Association
  • Professional Member of International Solar Energy Society, Germany
  • Multiple publications in international journals and conference proceedings
  • First-Class B.Ed. from Sant Gadge Baba Amravati University

Legacy and Future Contributions ๐Ÿ”ฎ

Dr. Khirade aims to continue advancing his research in nanomaterials and material science through collaboration with international research communities. His future contributions are poised to revolutionize industries such as electronics, energy, and defense. By mentoring young minds, he is shaping the next generation of material scientists, ensuring a strong legacy in the academic world.

Publication Top Notes

Structural, microstructural and optical characteristics of rGO-ZnO nanocomposites via hydrothermal approach

  • Authors: GM Rajguru, RK Mishra, PB Kharat, PP Khirade
    Journal: Optical Materials
    Year: 2024

Experimental, theoretical and numerical simulation-based investigations on the fabricated Cu2ZnSn thin-film-based Schottky diodes with enhanced electron …

  • Authors: SV Mukhamale, MJ Kartha, PP Khirade
    Journal: Scientific Reports
    Year: 2024

Structural, morphological, and electrical investigation of 50 Mrad ฮณ-radiated Ni1-xCdxFe2O4 nanoparticles

  • Authors: MR Patil, AP Keche, PP Khirade, AV Raut, AA Pandit, KM Jadhav
    Journal: Materials Today: Proceedings
    Year: 2022

Hyperthermic evaluation of oleic acid coated nano-spinel magnesium ferrite: enhancement via hydrophobic-to-hydrophilic surface transformation

  • Authors: SB Somvanshi, SR Patade, DD Andhare, SA Jadhav, MV Khedkar, …
    Journal: Journal of Alloys and Compounds
    Year: 2020

Induction Heating Analysis of Surface-Functionalized Nanoscale CoFe2O4 for Magnetic Fluid Hyperthermia toward Noninvasive Cancer Treatment

  • Authors: PB Kharat, SB Somvanshi, PP Khirade, KM Jadhav
    Journal: ACS Omega
    Year: 2020

 

 

 

Huanqin Wang | Experimental methods | Best Researcher Award

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Prof. Huanqin Wang | Experimental methods | Best Researcher Award

Hefei Institutes of Physical Science, Chinese Academy of Sciences | China

Professor Huanqin Wang is a distinguished researcher and educator currently serving as a professor at the Hefei Institutes of Physical Science, Chinese Academy of Sciences. He specializes in ultrafine particle sensing and environmental detection technologies. With a strong academic background, including a Ph.D. in microelectronics and solid-state electronics from the University of Science and Technology of China, he has made substantial contributions to improving environmental quality and addressing pollution through innovative technological solutions.

๐Ÿ‘จโ€๐ŸŽ“ Profile

Scopus

Early Academic Pursuits ๐ŸŽ“

Professor Wang earned his B.S. degree in applied physics in 2004, followed by a Ph.D. in microelectronics and solid-state electronics in 2009 from the University of Science and Technology of China. His academic journey laid the foundation for his future research and expertise in environmental sensing technologies, leading to his role as a professor at the State Key Laboratory of Transducer Technology, part of the Institute of Intelligent Machine.

Professional Endeavors ๐Ÿ’ผ

Currently, Wang is a professor at the Chinese Academy of Sciences, where he also manages research projects funded by prestigious national programs such as the National Key Research and Development Program of China and the National Natural Science Fund of China. Over his career, he has been instrumental in driving several projects aimed at pollution control and sensing technologies that address real-world environmental issues.

Contributions and Research Focus ๐ŸŒฑ

Professor Wangโ€™s primary research interest lies in the development of new technologies for mobile pollution source emission detection, with a particular focus on ultrafine particle sensing. He has developed key equipment such as the miniature atmospheric ultrafine particle size spectrometer and an on-board particulate matter emission testing system, which have been mass-produced and successfully applied in urban air quality evaluations and vehicle emission retrofits.

Impact and Influence ๐ŸŒ

Wang’s work has made significant impacts on pollution control efforts, especially in the areas of diesel vehicle emissions and urban particulate monitoring. His devices are now used to assess the effectiveness of diesel vehicle particulate filter retrofits and are deployed in cities such as Tianjin and Tangshan. With over 70 published articles and 60 patents, Wangโ€™s research has shaped how we understand and address air quality and emissions in modern cities.

Academic Cites ๐Ÿ“š

Professor Wangโ€™s publications have been widely recognized, with a citation index of 828. His peer-reviewed articles in SCI, Scopus, and other respected journals have become critical resources for the scientific community, showcasing the high relevance and impact of his research on environmental science and technology.

Research Skills ๐Ÿ› ๏ธ

Professor Wang excels in various research methodologies, particularly in sensor technology and environmental detection systems. His expertise spans from conceptualization and design to the implementation of cutting-edge sensing devices. Additionally, his experience in consultancy and industry projects further demonstrates his ability to translate academic research into practical, real-world solutions.

Teaching Experience ๐Ÿ‘จโ€๐Ÿซ

As a professor with the Institute of Intelligent Machine, Professor Wang has also contributed to graduate-level education in the fields of microelectronics, sensor technology, and environmental science. His teaching influences future generations of researchers and engineers who will continue to address global environmental challenges.

Legacy and Future Contributions ๐Ÿ”ฎ

Looking forward, Professor Wangโ€™s continued research promises to push the boundaries of environmental monitoring technologies. His development of more advanced sensing devices will play a pivotal role in addressing global pollution and contributing to sustainable urban development. His legacy will undoubtedly influence both the scientific community and policy makers in the fight against environmental degradation and climate change.

ย  Publications Top Notes

Electrostatic vehicle exhaust particle sensor for the evaluation of the diesel particulate filter (DPF)

  • Authors: Sun, Q., Wang, H., Liu, J., Yu, F., Gui, H.
    Journal: Instrumentation Science and Technology
    Year: 2025

Simulation of electrostatic particulate matter sensor regeneration based on the particulate deposition patterns

  • Authors: Liu, J., Wang, H., Sun, Q., Yu, F., Feng, B.
    Journal: Sensor Review
    Year: 2024

Analysis of excessive NOx emission from tampered heavy-duty vehicles based on real-time data and its impact on air pollution

  • Authors: Li, Y., Wang, H., Fu, M., Yang, Y., Gui, H.
    Journal: Atmospheric Pollution Research
    Year: 2024

Structural simulation and performance evaluation of self-priming electrostatic diesel vehicle emission particle sensor

  • Authors: Sun, Q., Wang, H., Huang, G., Gui, H., Chen, D.-R.
    Journal: Instrumentation Science and Technology
    Year: 2024

Beijing Heavy-Duty Diesel Vehicle Battery Capacity Conversion and Emission Estimation in 2022

  • Authors: Fu, M., Yang, Y., Li, Y., Yu, F., Liu, J.
    Journal: Sustainability (Switzerland)
    Year: 2023

 

 

Xiaolong Zhao | Experimental methods | Best Researcher Award

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Assoc. Prof. Dr. Xiaolong Zhao | Experimental methods | Best Researcher Award

Xi’an jiaotong university | China

Dr. Xiaolong Zhao is an Associate Professor at Xi’an Jiaotong University in the School of Microelectronics, Faculty of Electronic and Information Engineering. He is a highly regarded researcher in the field of semiconductor radiation detectors, microwave components, and FDTD simulation. With a solid educational background from Xi’an Jiaotong University, Dr. Zhao has made notable strides in the development of advanced detector systems and simulation models. His multifaceted research continues to shape the future of semiconductor technologies.

๐Ÿ‘จโ€๐ŸŽ“Profile

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Early Academic Pursuits ๐ŸŽ“

Dr. Zhao’s journey began at Xi’an Jiaotong University, where he earned his Bachelor’s degree in Microelectronics in 2012, followed by a PhD in Electronic Science and Technology in 2017. During his academic years, he developed a keen interest in the field of semiconductor devices, leading to his work on radiation detection systems. His early research laid a strong foundation for his subsequent postdoctoral work, which further solidified his expertise in advanced semiconductor technologies and microwave engineering.

Professional Endeavors ๐Ÿ› ๏ธ

Dr. Zhaoโ€™s professional career is characterized by his contributions to both academic research and industry. After completing his PhD, he undertook a Postdoctoral Fellowship at Xi’an Jiaotong University from 2018 to 2024, enhancing his expertise in radiation detectors and microwave simulations. Additionally, his industrial experience as a Hardware Engineer at Huawei Technologies between 2017 and 2018 provided him with valuable insights into practical applications of his research in the tech industry.

Contributions and Research Focus ๐Ÿ”ฌ

Dr. Zhao’s research focuses primarily on semiconductor radiation detectors and the nonlinear effects in microwave components. His work on FDTD simulation for the analysis of microwave circuits and radiation sensors has significantly advanced the understanding and design of next-generation detection systems. His research on ZnO-based X-ray detectors, ultraviolet phototransistors, and bulk-acoustic-wave resonators demonstrates his profound contribution to innovative materials and sensing technologies.

Academic Cites ๐Ÿ“š

Dr. Zhaoโ€™s work is well-recognized in the scientific community. With 18 peer-reviewed publications (including multiple first-author and corresponding author papers), he has consistently contributed high-impact research that has garnered substantial academic attention. For instance, his paper on “Physical Sensors Based on Lamb Wave Resonators” published in Micromachines and his research on ZnO-based X-ray detectors published in Nuclear Instruments and Methods are widely cited and respected in the fields of semiconductor science and detection technology.

Research Skills ๐Ÿง 

Dr. Zhao possesses a range of specialized research skills including:

  • Semiconductor Device Design
  • FDTD Simulation Techniques
  • Microwave Engineering
  • Material Science (ZnO, 4H-SiC)
  • Radiation Detection Technologies

These skills have allowed him to make innovative contributions to both theoretical studies and applied research in semiconductor devices and sensor systems. His expertise in nonlinear effects and advanced simulations further sets him apart as a leader in his field.

Teaching Experience ๐ŸŽ“

As an Associate Professor, Dr. Zhao is dedicated to the development of the next generation of microelectronics engineers. His teaching responsibilities at Xi’an Jiaotong University include courses on semiconductor physics, microwave engineering, and radiation detection technologies. He combines his industry experience and research expertise to offer students a rich and practical understanding of electronic engineering and materials science.

Awards and Honors ๐Ÿ†

Dr. Zhaoโ€™s exceptional work has earned him several prestigious research grants, including:

  • National Science Foundation of China (2023-2026)
  • Research Project of Shanghai Aerospace Electronics Equipment Institute (2023)
  • Research Project of Honor Device Co. Ltd. (2021)

Additionally, his innovative contributions to semiconductor and radiation detection technologies have been recognized by his peers in the research community, making him a notable figure in microwave engineering and sensor development.

Legacy and Future Contributions ๐ŸŒฑ

Dr. Zhao’s legacy is already well-established through his high-impact research and teaching. As a forward-thinking researcher, his work promises to shape the future of radiation detection systems, microwave technologies, and semiconductor devices for years to come. Looking ahead, Dr. Zhao plans to continue his exploration of new materials and sensor technologies, and he is dedicated to further expanding the applications of his work in sectors such as aerospace, medical diagnostics, and environmental monitoring.

Publications Top Notes

Real-Time Ultraviolet Flame Detection System Based on 4H-SiC Phototransistor

  • Authors: Danyang Huang, Xiaolong Zhao, Quan Li, Zhaozhao Liang, Shuwen Guo, Yongning He
    Journal: IEEE Transactions on Electron Devices
    Year: 2024

Readout circuit for a ZnO bulk-acoustic-wave X-ray dose rate detector

  • Authors: Zixia Yu, Junyan Bi, Danyang Huang, Xiaolong Zhao, Yongning He
    Journal: Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
    Year: 2024-10

Physical Sensors Based on Lamb Wave Resonators

  • Authors: Zixia Yu, Yongqing Yue, Zhaozhao Liang, Xiaolong Zhao, Fangpei Li, Wenbo Peng, Quanzhe Zhu, Yongning He
    Journal: Micromachines
    Year: 2024-10-09

Full-Wave Simulation of Contact-Nonlinearity-Induced Passive Intermodulation Using a Nonlinear Interface Boundary Model

  • Authors: Xiaolong Zhao, Yongning He, Anxue Zhang
    Journal: IEEE Microwave and Wireless Technology Letters
    Year: 2024-06

Linearityโ€“Nonlinearity-Separation FDTD Method for Nonlinearity Analysis of Passive Microstrip Circuits

  • Authors: Xiaolong Zhao, Yongning He, Anxue Zhang
    Journal: IEEE Microwave and Wireless Technology Letters
    Year: 2023

 

ลžรผkrรผ KARATAลž | Experimental methods | Excellence in Research

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Prof. ลžรผkrรผ KARATAลž | Experimental methods | Excellence in Research

KahramanmaraลŸ Sรผtรงรผ ฤฐmam University | Turkey

Prof. ลžรผkrรผ KarataลŸย is a renowned professor in the Department of Physics at KahramanmaraลŸ Sรผtรงรผ ฤฐmam University (KSรœ). With nearly 100 scientific publications and over 3,200 citations, Prof. KarataลŸ has become a leading figure in the field of semiconductor devices and solar cell technology. His research primarily focuses on the preparation and electrical and dielectric properties of Schottky diodes, MS, MIS, MOS structures, and solar cells, making significant contributions to material science and energy technology.

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Early Academic Pursuits ๐ŸŽ“

Prof. KarataลŸโ€™s academic journey began at Dicle University in Diyarbakฤฑr, Turkey, where he earned his B.S. in Physics in 1992. Driven by a passion for understanding the fundamental aspects of physics, he pursued advanced studies at KahramanmaraลŸ Sรผtรงรผ ฤฐmam University and Gazi University, obtaining his M.S. (1996) and Ph.D. (2003) degrees, respectively. His deep interest in semiconductors and material sciences has been a defining feature of his academic career.

Professional Endeavors ๐Ÿ’ผ

Prof. KarataลŸ has been an integral part of the KSรœ Faculty of Science, starting as a Research Assistant and progressing to a full Professor. He has been involved in numerous research projects, both completed and ongoing, taking on executive roles and contributing to various fields of semiconductor physics and solar energy. His expertise has been sought by national and international symposia, where he has been invited as a speaker, showcasing his influence in the scientific community.

Contributions and Research Focus ๐Ÿ”ฌ

Prof. KarataลŸ is widely recognized for his contributions to semiconductor devices such as Schottky diodes, MS, MIS, and MOS structures, with a focus on their electrical and dielectric properties in relation to temperature, frequency, and radiation. His pioneering work in solar cells has garnered significant attention for its practical applications in renewable energy. The depth of his research in the preparation, analysis, and optimization of these devices is central to his academic identity.

Academic Cites ๐Ÿ“‘

Prof. KarataลŸ has established himself as a highly respected researcher, amassing over 3,200 citations across nearly 100 published articles. His cited work speaks to the relevance and impact of his research, particularly in semiconductor devices and solar energy systems. His papers are often referenced in studies concerning the electrical and dielectric properties of materials used in high-tech applications, ensuring his influence reaches across a wide range of scientific disciplines.

Research Skills ๐Ÿ”ง

Prof. KarataลŸ possesses a diverse skill set, including expertise in the preparation and analysis of semiconductor materials and solar cells. His ability to explore the electrical properties of Schottky diodes and MOS structures under varying conditions such as temperature, frequency, and radiation has contributed significantly to the advancement of semiconductor technology. Additionally, his leadership in executing projects has showcased his ability to collaborate and manage large, complex research efforts.

Teaching Experience ๐Ÿ‘จโ€๐Ÿซ

Prof. KarataลŸ is a passionate educator who has taught a wide range of advanced courses at the masterโ€™s and doctoral levels. His teaching spans subjects related to semiconductors, material science, and solar energy, and he has mentored many graduate students in these fields. His dedication to academic excellence is evident not only through his lectures but also through his role as a graduate advisor, guiding students in their research pursuits and helping shape the next generation of scientists.

๐ŸŒŸ Legacy and Future Contributions

Prof. KarataลŸ’s legacy lies in his pioneering research, impactful publications, and the success of his students. Looking ahead, he aims to expand his work in renewable energy technologies and foster global collaborations to further advance the field of semiconductor physics. His vision ensures that his contributions will continue to influence the scientific community for years to come.

Publications Top Notes

 

 

Yanpeng SI | Experimental methods | Best Researcher Award

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Mr. Yanpeng SI | Experimental methods | Best Researcher Award

Student at Northwestern Polytechnical University, China

Yanpeng Si, a PhD candidate at Northwestern Polytechnic University in Xi’an, China, was born on March 23, 1997, in Jining, Shandong Province. Under the supervision of Prof. Jianjun Jiang, he has developed a strong foundation in aeronautical engineering and composite materials. Known for his quote, “In me the tiger sniffs the rose,” Yanpeng embodies a blend of strength and elegance. He is an active member of the academic community, contributing to student leadership as the PhD class monitor and Party Affairs Group leader in the School of Mechanical Engineering.

Profile๐ŸŽ“

Early Academic Pursuits ๐ŸŽ“

Yanpeng Si began his academic journey at Shandong Jiaotong University, where he earned a B.S. in Aircraft Manufacturing Engineering with a commendable GPA of 3.610. His passion for aeronautics led him to Northwestern Polytechnic University, where he pursued a B.S. in Aeronautical Engineering, graduating with a GPA of 3.348. Currently, he is a PhD candidate at the same institution, maintaining an impressive GPA of 3.643. His educational background has provided a solid foundation in engineering principles, fostering a keen interest in advanced materials and manufacturing processes.

Professional Endeavors ๐Ÿ’ผ

In addition to his studies, Yanpeng has actively engaged in various discipline competitions, showcasing his leadership and innovation. As a project manager, he led the Intelligent Insulation Cup with Integrated Cooling and Heating project under the National College Student Innovation and Entrepreneurship Training Program. His individual participation in the 18th National CaTICs Network Competition and management role in the “Internet +” Undergraduate Innovation and Entrepreneurship Competition further highlight his commitment to practical applications of engineering concepts.

Contributions and Research Focus ๐Ÿ”ฌ

Yanpeng’s research focuses on composite carbon fiber fabrics, particularly their preforming processes and constitutive modeling. He conducts thorough analysis and testing of the mechanical behavior of these fabrics, contributing valuable insights to the field of aeronautical engineering. His work not only deepens the understanding of composite materials but also has significant implications for their application in various industries, making him a key contributor to the advancement of material science.

Impact and Influence ๐ŸŒŸ

Through his leadership roles, including Vice President of the Student Union and class monitor, Yanpeng has significantly influenced his peers and the academic community. His achievements, such as winning the First Prize in the Shandong Aircraft Design Competition and receiving the National Inspirational Scholarship, reflect his dedication to excellence and innovation. Yanpengโ€™s influence extends beyond competitions, inspiring fellow students to pursue their own academic and professional goals.

Academic Cites ๐Ÿ“š

Yanpeng has received multiple accolades throughout his academic career, including recognition as an Outstanding Graduate of Shandong Province in 2019 and as an Outstanding Graduate Student at Northwestern Polytechnic University from 2019 to 2023. His awards, including the Second Prize in the National English Competition for College Students (NECCS) and various scholarships, underscore his commitment to academic excellence and leadership.

Technical Skills ๐Ÿ› ๏ธ

Yanpeng possesses a diverse skill set that includes proficiency in various software applications. He is skilled in Office software, Visio, Origin, Illustrator, and Keyshot. His expertise in modeling software such as Catia, Solidworks, and Pro/Engineer, along with simulation software like Abaqus and Ansys, equips him to tackle complex engineering challenges effectively.

Teaching Experience ๐Ÿ“–

As a PhD class monitor and a leader in the Party Affairs Group of the School of Mechanical Engineering, Yanpeng has gained valuable teaching and mentoring experience. His roles have involved guiding younger students, fostering an engaging learning environment, and promoting academic integrity and collaboration among peers.

Legacy and Future Contributions ๐Ÿ”ฎ

Yanpeng Si aims to leave a lasting legacy in the field of aeronautical engineering through his research and contributions to composite materials. His ongoing work promises to enhance the understanding and application of advanced materials, paving the way for innovations in aerospace and related industries. As he continues his academic journey, Yanpeng is poised to make significant future contributions that will impact both the scientific community and society at large.

Publication Top Notes๐Ÿ“–

A creep/recovery model of dry fiber fabric during compaction considering temperature and in-plane tension
  • Authors: Si, Y., An, L., Xie, C., Li, Y., Jiang, J.
    Publication Year: 2024
    Citations: 1
A model for the temperature-dependent creep/recovery behavior of dry fiber fabric considering in-plane tension
  • Authors: Si, Y., Zhao, Z., Sun, L., Li, Y., Jiang, J.
    Publication Year: 2024
    Citations: 0
A viscoelastic-plastic model for the temperature-dependent creep and recovery behavior during dry fiber fabric compaction
  • Authors: Si, Y., Sun, L., Chen, J., Jiang, J., Li, Y.
    Publication Year: 2024
    Citations: 3
Compression creep model of dry fiber preform considering temperature effect
  • Authors: Si, Y., Sun, L., Yan, E., Li, Y., Jiang, J.
    Publication Year: 2023
    Citations: 0

 

 

 

Tanmay CHATTOPADHYAY | Experimental methods | Best Researcher Award

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Assoc Prof Dr. Tanmay CHATTOPADHYAY | Experimental methods | Best Researcher Award

Associate Professor at Diamond Harbour Women’s University, India

Dr. Tanmay Chattopadhyay is an Associate Professor in the Department of Chemistry at Diamond Harbour Women’s University, West Bengal, India. With over 14 years of teaching and research experience, he has made significant contributions to the fields of bio-inorganic chemistry, coordination chemistry, and nanomaterials. Dr. Chattopadhyay has held various academic positions, including his current role at DHWU and previously at Panchakot Mahavidyalaya. His research expertise has led to multiple patents, and his work has been published extensively in renowned scientific journals. He is an active member of several professional organizations, including the Indian Chemical Society and IACS.

Profile:

Education:

Dr. Chattopadhyay has a robust academic background in chemistry, with a focus on inorganic and coordination chemistry. He completed his Ph.D. in 2008 at the University of Calcutta under the guidance of Professor Debasis Das, where he explored advanced bio-inorganic and coordination chemistry. His academic journey began with a Bachelor of Science from the University of Burdwan in 2001, followed by a Master of Science from Visva-Bharati University in 2003, where he specialized in inorganic chemistry. Dr. Chattopadhyay further enhanced his academic credentials with a postdoctoral fellowship at the National Institute of Advanced Industrial Science and Technology (AIST) in Tsukuba, Japan, under the supervision of Professor Masumi Asakawa. During his postdoctoral research, he developed innovative nanomaterials and catalytic systems, setting the foundation for his future research interests.

Professional experience:

Dr. Chattopadhyayโ€™s professional journey in academia began in 2010 when he joined Panchakot Mahavidyalaya as an Assistant Professor in Chemistry. He held this position until 2019, where he played a crucial role in developing the chemistry curriculum and mentoring undergraduate students. In 2019, he transitioned to Diamond Harbour Womenโ€™s University as an Assistant Professor, quickly establishing himself as a key faculty member. His academic leadership was further recognized when he was promoted to Associate Professor in June 2022. Dr. Chattopadhyayโ€™s research experience also includes a postdoctoral fellowship at AIST, Japan, where he worked on cutting-edge nanomaterials and coordination chemistry. His extensive teaching experience, coupled with his contributions to research, makes him a respected figure in the academic community.

Research focus:

Dr. Chattopadhyayโ€™s research primarily focuses on bio-inorganic chemistry, coordination chemistry, and nanomaterials. His work has involved the development of novel catalytic systems using transition metal complexes and nanostructured materials for organic transformations. He has a particular interest in magnetically recoverable nanocatalysts and their applications in sustainable chemical processes, such as alcohol oxidation and nitrophenol reduction. Dr. Chattopadhyayโ€™s research also delves into metalloenzyme mimics, exploring the catalytic potential of Zn(II) and Ni(II) complexes. His research output includes 64 publications in refereed journals, with collaborations both in India and internationally. His dedication to advancing the understanding of catalysis and materials science has established him as a leader in his field.

Awards and Honors:

Dr. Chattopadhyay has received several accolades for his contributions to chemistry. He was awarded a prestigious WB-DST research grant in 2018, worth INR 4 lakh, for his ongoing research. Earlier, he received the SERB-DST Early Career Research grant in 2014, a notable award of INR 24.18 lakh, recognizing his potential as a researcher. Additionally, he secured a UGC research grant of INR 4.95 lakh in 2014, further supporting his work in coordination chemistry and nanomaterials. Dr. Chattopadhyay has also been granted a Japanese patent for his innovative contributions to catalysis. As a member of esteemed professional societies such as the Indian Chemical Society and IACS, his work continues to receive recognition both nationally and internationally.

Publication Top Notes:

  1. Title: Synthesis of copper(ii) complex-functionalized Fe3O4@ISNA (ISNA = isonicotinic acid) as a magnetically recoverable nanomaterial: catalytic studies in alcohol oxidation and nitrophenol reduction, and TD-DFT studies
    Authors: Mondal, R., Chakraborty, A., Zangrando, E., Shukla, M., Chattopadhyay, T.
    Year: 2024
    Citations: 0 ๐Ÿ“–
  2. Title: Comparative analysis of Zn(ii)-complexes as model metalloenzymes for mimicking Jack bean urease
    Authors: Ghanta, R., Chowdhury, T., Ghosh, A., Das, A.K., Chattopadhyay, T.
    Year: 2024
    Citations: 2 ๐Ÿ“–๐Ÿ“–
  3. Title: Ni(II)-Complex Anchored Over Functionalized Mesoporous SBA-15: A Nanocatalyst for the Synthesis of Aminophenoxazinone Derivatives
    Authors: Ghanta, R., Mondal, R., Chowdhury, T., Chattopadhyay, T., Bhaumik, A.
    Year: 2024
    Citations: 0 ๐Ÿ“–
  4. Title: Experimental and theoretical investigation of the catalytic performance of reduced Schiff base and Schiff base iron complexes: Transformation to magnetically retrievable catalyst
    Authors: Mondal, R., Chakraborty, A., Ghanta, R., Menรฉndez, M.I., Chattopadhyay, T.
    Year: 2021
    Citations: 11 ๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–
  5. Title: Iron Complexes Anchored onto Magnetically Separable Graphene Oxide Sheets: An Excellent Catalyst for the Synthesis of Dihydroquinazoline-Based Compounds
    Authors: Chakraborty, A., Chowdhury, T., Menendez, M.I., Chattopadhyay, T.
    Year: 2020
    Citations: 15 ๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–
  6. Title: Triton X-100 functionalized Cu(II) dihydrazone based complex immobilized on Fe3O4@dopa: A highly efficient catalyst for oxidation of alcohols, alkanes, and sulfides and epoxidation of alkenes
    Authors: Chakraborty, T., Mondal, R., Ghanta, R., Chakraborty, A., Chattopadhyay, T.
    Year: 2020
    Citations: 5 ๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–
  7. Title: Experimentally formulated and theoretically rationalized alumina immobilized copper catalyst for alcohol oxidation
    Authors: Chowdhury, T., Chatterjee, S., Banerjee, P., Shukla, M., Chattopadhyay, T.
    Year: 2020
    Citations: 3 ๐Ÿ“–๐Ÿ“–๐Ÿ“–
  8. Title: Pd(0) immobilized on Fe3O4@AHBA: an efficient magnetically separable heterogeneous nanocatalyst for Cโ€“C coupling reactions
    Authors: Chakraborty, T., Sarkar, A., Chattopadhyay, T.
    Year: 2019
    Citations: 8 ๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–
  9. Title: Surfactant-mediated solubilization of magnetically separable nanocatalysts for the oxidation of alcohols
    Authors: Chakraborty, A., Chakraborty, T., Menendez, M.I., Chattopadhyay, T.
    Year: 2019
    Citations: 14 ๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–
  10. Title: Designing of a magnetically separable Fe3O4@dopa@ML nano-catalyst for multiple organic transformations (epoxidation, reduction, and coupling) in aqueous medium
    Authors: Dasgupta, S., Chatterjee, S., Chattopadhyay, T.
    Year: 2019
    Citations: 8 ๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–๐Ÿ“–