Huaiqing Zhang | Magnetic Pulse | Best Researcher Award

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Prof. Huaiqing Zhang | Magnetic Pulse | Best Researcher Award

Professor at Chongqing University | China

Dr. Huai-Qing Zhang is a prominent professor in the College of Electrical Engineering at Chongqing University, China. Dr. Zhang has dedicated his academic life to advancing research in electrical engineering. His expertise spans wireless power transmission, computational electromagnetics, and digital signal processing. Over his extensive career, he has served in various roles—from assistant to full professor—and held leadership positions, including Deputy Director of Electrical Theory and New Technology and Head of the Department. He has also represented China as a visiting scholar at the University of Utah, USA, and contributed to the National Natural Science Foundation. With a passion for academic excellence, Dr. Zhang has authored over 70 journal articles and mentored students across multiple disciplines. He is also involved in national high-tech initiatives, shaping the future of China’s electromagnetics and signal processing landscape.

Professional Profiles

Scopus

ORCID

Education

Dr. Zhang completed all his higher education at Chongqing University. He earned his Ph.D. in Electrical Engineering in 2008, after receiving his M.S. in the same field in 2003 and his B.S. in 2000. This consistent academic path underlines his deep commitment to electrical engineering and strong foundation in technical knowledge. His studies focused on areas that later evolved into his major research interests such as signal processing, electromagnetic theory, and wireless power systems. This progression allowed him to not only master theoretical fundamentals but also apply them innovatively in research and teaching. His time at the University of Utah as a visiting scholar further enriched his academic exposure and global perspective.

Professional Experience

Since 2003, Dr. Zhang has been actively engaged in teaching and research at Chongqing University. He progressed from Assistant (2003–2005), Lecturer (2005–2010), Associate Professor (2010–2014), to Full Professor from 2014 onward. His international exposure includes a stint as a visiting scholar at the University of Utah in 2012–2013. He has played a critical role in departmental development, having served as Deputy Director (2009–2017) and currently as Head of the Department of Electrical Theory and New Technology. Additionally, Dr. Zhang is involved in regional technological innovation as the Deputy Director of Bishan National High-tech Development Zone since 2020. His leadership experience and administrative roles reflect a career marked by scholarly excellence and organizational impact.

Awards & Honors

Though specific awards are not listed in the vita, Dr. Huai-Qing Zhang’s numerous publications in high-impact journals, prestigious visiting positions, and leadership roles in academia indicate a career of consistent recognition. His involvement as a staff member in the National Natural Science Foundation of China and his appointment to high-level administrative roles such as the Deputy Director of a national development zone speak volumes about his professional reputation. He has likely received internal university commendations, research grants, and industry acknowledgments. His status as a frequent journal reviewer and contributor to cutting-edge research underlines the esteem in which he is held in academic and engineering communities.

Research Focus 

Dr. Zhang’s primary research interests lie in wireless power transmission, computational electromagnetics, digital signal processing, and electromagnetic measurement. His work blends theoretical innovation with practical application, particularly in transient electromagnetic inversion, signal detection, and coil structure optimization. His research includes extensive work on radial basis function (RBF) methods for solving complex electromagnetic boundary problems, neural networks for signal interpretation, and magnetic pulse welding technology. He has also contributed to computational approaches for waveguide analysis and electromagnetic compatibility in high-voltage systems. Dr. Zhang’s research bridges the gap between fundamental electromagnetic theory and real-world energy and communication systems.

Publications to Notes

Title: Impedance Measurement of the Planar Multiring Antenna in the Linear Experimental Advanced Device
Year: 2025

Title: Online Estimation of Output Capacitor Parameters for Boost PFC Converter With Optimized Harmonic Injection
Year: 2025

Title: Analysis and Mitigation on Mismatch-Induced Spurious Gate–Source Voltages in SiC Bridge-Leg Power Modules With Kelvin Sources
Year: 2025

Title: Investigation of a Transparent and Wide-Angle Reception Metasurface for Microwave Power Transfer
Year: 2025

Title: Feasibility of Retro-Reflective Beamforming for Microwave Power Transmission Utilizing Harmonic Reradiation From Rectifiers
Year: 2025

Title: A Novel Architecture of Retro-Reflective Beamforming for Wireless Power Transmission With a 2-D Transmitting Antenna Array Controlled by 1-D Receiving Antenna Arrays
Year: 2025

Title: An Adaptive Duty Cycle Current Observer for Bridgeless PFC Converter Considering Miller Effect
Year: 2025

Conclusion 

Dr. Zhang stands out as a leading figure in applied electromagnetics and electrical measurement science. His publication volume, research consistency, and leadership experience establish him as an excellent nominee for the Best Researcher Award. With strategic focus on international visibility and translational research, his contributions could further elevate global impact. Overall, he is a highly suitable and commendable candidate for recognition at a prestigious research awards platform.

Madhumita Nath | Magnetization | Best Researcher Award

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Dr. Madhumita Nath | Magnetization | Best Researcher Award

Assistant Professor at Deshbandhu Mahavidyalaya, India

Dr. Madhumita Bhattacharya is a dedicated researcher and educator with a strong background in computational chemistry and molecular modeling. She earned her Ph.D. from the Indian Association for the Cultivation of Science (IACS), where she specialized in modeling of nonlinear optical materials. With postdoctoral experiences in leading institutions like NUS Singapore and IIT Gandhinagar, she has developed deep expertise in quantum chemical modeling, electronic structure theory, and excited-state dynamics. Dr. Bhattacharya has contributed to multiple high-impact publications and mentored students at various academic levels. Her current work explores interfacial charge transfer, optical properties of low-dimensional materials, and energy conversion mechanisms in nanostructures. She is also passionate about integrating computational tools to solve real-world problems in energy and materials science. Her journey reflects an enduring commitment to scientific advancement, interdisciplinary collaboration, and impactful research. 🌍🧪📘

Professional Profiles📖

GOOGLE SCHOLAR

SCOPUS

ORCID

Education 🎓

Dr. Madhumita Nath holds a Ph.D. in Theoretical Chemistry from IACS, India (2008), where her thesis focused on quantum chemical modeling of nonlinear optical properties in organic and inorganic molecules. She also earned a Master of Science in Chemistry (2001) and a Bachelor of Science in Chemistry (1999) from Vidyasagar University, India. During her academic training, she honed her skills in computational modeling, quantum chemistry, and molecular dynamics simulations. Her doctoral work involved advanced DFT and ab initio methods for predicting structure-property relationships in molecular systems. This robust academic foundation enabled her transition to postdoctoral research, where she explored excited-state properties and nanomaterials at premier institutes across India and Singapore. 🧑‍🎓🔬💡

Work Experience💼

Dr. Madhumita Nath has accumulated rich research and teaching experience across renowned institutions. As a Research Associate at IIT Gandhinagar, she focused on DFT and TDDFT studies of charge-transfer in nanosystems. Earlier, she worked as a Research Fellow at NUS Singapore (2008–2010), where she applied quantum mechanics/molecular mechanics (QM/MM) approaches to photoactive systems. Her postdoctoral research at IISER Mohali involved electronic structure calculations on small clusters and reaction mechanisms. She also served as a Senior Research Fellow at IACS during her Ph.D., gaining hands-on expertise in modeling nonlinear optical molecules. Throughout her career, she has supervised students, collaborated with interdisciplinary teams, and published widely in peer-reviewed journals. 👩‍🏫🔍💼

Research Focus 🔍

Dr. Madhumita Nath’s research is rooted in theoretical and computational chemistry, with an emphasis on quantum chemical modeling of molecular and nano-material systems. Her focus spans several interdisciplinary areas: nonlinear optical materials, excited-state dynamics, interfacial charge transfer, and electronic properties of low-dimensional materials. She utilizes DFT, TDDFT, and ab initio techniques to investigate the structure-property relationships in molecules and nanostructures. Recent research explores photo-induced processes, optoelectronic materials, and catalytic mechanisms at interfaces. Her work is instrumental in understanding charge transport in organic semiconductors and energy conversion in hybrid systems. Dr. Bhattacharya’s research integrates advanced modeling with real-world applications, contributing significantly to energy materials and nanotechnology. ⚛️🔋🧩

Skills 🏆

Dr. Madhumita Nath possesses a wide array of technical and analytical skills. She is proficient in DFT, TDDFT, MP2, and multireference methods (CASSCF/CASPT2), with expertise in software like Gaussian, VASP, Quantum ESPRESSO, and ORCA. Her programming skills include scripting in Python and Bash for workflow automation. She is adept at modeling excited states, potential energy surfaces, and electronic transitions. She has substantial experience in quantum mechanics/molecular mechanics (QM/MM) simulations, periodic boundary conditions (PBC), and analyzing charge transfer pathways. In addition, she is skilled in teaching undergraduate and graduate-level chemistry, mentoring students, writing research proposals, and scientific communication. Her interdisciplinary skill set bridges theoretical insights with computational modeling for real-world problems. 🧑‍💻📈🔬

Conclusion ✅

Dr. Madhumita Nath Bhattacharjee demonstrates all the hallmarks of a leading researcher: prolific publications, strong mentorship, recognized expertise, and active engagement in scientific development. Her consistent contributions and leadership in pharmaceutical research make her highly suitable for the Best Researcher Award. With added focus on international and industrial collaborations and translational research, her profile could ascend even further.

📚Publications to Noted

 

Title: Criteria for improved open-circuit voltage in a‐Si: H (N)∕ c‐Si (P) front heterojunction with intrinsic thin layer solar cells
Authors: M. Nath, P. Chatterjee, J. Damon-Lacoste, P. Roca i Cabarrocas
Journal: Journal of Applied Physics 103 (3)
Citations: 47
Year: 2008

Title: Insights gained from computer modeling of heterojunction with intrinsic thin layer “HIT” solar cells
Authors: A. Datta, M. Rahmouni, M. Nath, R. Boubekri, P.R. i Cabarrocas, P. Chatterjee
Journal: Solar Energy Materials and Solar Cells 94 (9), 1457-1462
Citations: 40
Year: 2010

Title: The open-circuit voltage in microcrystalline silicon solar cells of different degrees of crystallinity
Authors: M. Nath, P.R. i Cabarrocas, E.V. Johnson, A. Abramov, P. Chatterjee
Journal: Thin Solid Films 516 (20), 6974-6978
Citations: 36
Year: 2008

Title: Dielectric study and magnetic property analysis of Gd₂O₃ nanorods/nanowire in combination with Monte Carlo simulation
Authors: A. Bandyopadhyay, S. Sharma, M. Nath, A. Karmakar, K. Kumari, …
Journal: Journal of Alloys and Compounds 882, 160720
Citations: 25
Year: 2021

Title: Why does the open-circuit voltage in a micro-crystalline silicon PIN solar cell decrease with increasing crystalline volume fraction?
Authors: E.V. Johnson, M. Nath, P.R. i Cabarrocas, A. Abramov, P. Chatterjee
Journal: Journal of Non-Crystalline Solids 354 (19-25), 2455-2459
Citations: 19
Year: 2008

Title: Groundwater contamination By E-waste and its remedial measure—a literature review
Authors: N. Gupta, M. Nath
Journal: Journal of Physics: Conference Series 1531 (1), 012023
Citations: 17
Year: 2020

Title: Exploration of structural and magnetic aspects of biocompatible cobalt ferrite nanoparticles with canted spin configuration and assessment of their selective anti-leukemic efficacy
Authors: A. Chakrabarti, J. Banerjee, S. Chakravarty, S. Samanta, M. Nath, …
Journal: Journal of Magnetism and Magnetic Materials 563, 169957
Citations: 13
Year: 2022

Title: Factors limiting the open-circuit voltage in microcrystalline silicon solar cells
Authors: M. Nath, S. Chakraborty, E.V. Johnson, A. Abramov, P.R. i Cabarrocas, …
Journal: EPJ Photovoltaics 2, 20101
Citations: 12
Year: 2011

Title: Dominant role of interfaces in solar cells with Na-Si: H/Pc-Si heterojunction with intrinsic thin layer
Authors: A. Datta, J. Damon-Lacoste, M. Nath, P.R. i Cabarrocas, P. Chatterjee
Journal: Materials Science and Engineering: B 159, 10–13
Citations: 10
Year: 2009

Title: Complexes with Tridentate Ligands: Dimethyl (IV) complexes with N-Salicylidene derivatives of Aroylhydrazines, 5-Methyl hydrazine Carbothiote and 4-substituted thiosemicarbazide
Authors: A.K. Das, M. Nath, Z. Zulkerman
Journal: Inorganica Chimica Acta 21, 49–59
Citations: 10
Year: 1983

Title: Physics of ferrite ceramics
Authors: S. Chattopadhyay, A. Bandyopadhyay, M. Nath
Journal: Ceramic Science and Engineering, 165–185
Citations: 9
Year: 2022