Sudipta Chattopadhyay | Engineering | Outstanding Scientist Award

Published on by World Top Scientists

Dr. Sudipta Chattopadhyay | Engineering | Outstanding Scientist Award

Professor at Mizorm University (A Central University, Govt of India))Aizawl, India

Dr. Sudipta Chattopadhyay is a seasoned academic and researcher in the field of Antenna and Electromagnetics with over 24 years of experience in teaching and research. Currently a Professor in the Department of Electronics and Communication Engineering at Mizoram University, he holds a Ph.D. in Antenna Engineering from the University of Calcutta and an honorary D.Sc. in Applied Electromagnetics. His research focuses on microstrip antennas, defected ground structures, and electromagnetic radiation, earning him national and international recognition, including lifetime achievement awards and editorial roles in prestigious journals like IEEE Access and Wiley’s RF and Microwave Computer Aided Engineering. He is a Fellow of multiple professional societies, including IETE and IE, and has contributed extensively as a reviewer for high-impact journals. Known for his academic dedication, editorial leadership, and subject expertise, Dr. Chattopadhyay’s work continues to influence the fields of RF and microwave engineering both in India and abroad.

Professional Profile 

Google Scholar
Scopus Profile

Education

Dr. Sudipta Chattopadhyay has a strong academic background in electronics and electromagnetics. He began his education at Taki Government High School, earning first-division results in both Madhyamik and Higher Secondary Examinations. He completed his B.Sc. with honors in Physics from Bidhannagar Government College under the University of Calcutta. He then pursued his B.Tech and M.Tech in Radio Physics and Electronics from the Institute of Radio Physics and Electronics, University of Calcutta, both with first-class distinction. His academic journey culminated with a Ph.D. (Tech) in Antenna and Electromagnetics from the same institute, where he conducted theoretical and experimental studies on rectangular microstrip patch antennas. Additionally, in recognition of his contributions to applied electromagnetics, he was awarded an honorary D.Sc. by the University of Central America, Bolivia. Dr. Chattopadhyay’s educational foundation has laid the groundwork for a distinguished career in teaching, research, and innovation in antenna engineering and related fields.

Professional Experience

Dr. Chattopadhyay has amassed over two decades of professional experience in academia, beginning as a Lecturer in 2001 at Siliguri Institute of Technology. Over the years, he rose through the ranks to Senior Lecturer, Assistant Professor, and Associate Professor at the same institution. In 2016, he joined Mizoram University, a central university under the Government of India, as an Associate Professor in the Department of Electronics and Communication Engineering. By 2019, he was promoted to Professor, a position he continues to hold. Throughout his career, he has taught a wide range of subjects in electronics and communication, mentored students, and contributed to the academic development of his institutions. His progression reflects a consistent commitment to teaching excellence and academic leadership. He has also been deeply involved in academic governance, research supervision, and curriculum development, solidifying his role as a senior academician and mentor in the Indian higher education system.

Research Interest

Dr. Sudipta Chattopadhyay’s primary research interests lie in the fields of antenna design, applied electromagnetics, and microwave engineering. His work emphasizes microstrip antennas, defected ground structures (DGS), cross-polarization reduction, and artificial magnetic conductors (AMCs). He is known for bridging theoretical modeling with experimental validation, contributing to advancements in compact, high-performance antenna systems for modern wireless communication. His doctoral research focused on the analysis and performance enhancement of rectangular microstrip patch antennas, and he has since expanded his focus to include reconfigurable antennas and metamaterials. Dr. Chattopadhyay’s editorial and reviewer roles in leading international journals further highlight his expertise and engagement with cutting-edge developments in RF and microwave technologies. His research continues to address challenges in bandwidth improvement, radiation efficiency, and polarization control, which are critical for 5G, IoT, and satellite communication systems. Overall, his work contributes significantly to the development of advanced antenna systems in both academic and applied research contexts.

Award and Honor

Dr. Sudipta Chattopadhyay has received numerous awards and honors in recognition of his contributions to research and academia. He is a UGC National Scholarship holder and has been featured multiple times in prestigious biographical directories such as Marquis Who’s Who in the World and 2000 Outstanding Intellectuals of the 21st Century. His accolades include the Albert Nelson Marquis Lifetime Achievement Award (2018), the Best Researcher Award (2021), and several Lifetime Achievement Awards from organizations including the EMG-SSM Trust and Aviskar Foundation. He is a Royal Golden Fellow of Eudoxia Research University and a World Research Fellow of London. He has served as an editorial board member and associate editor for high-impact journals like IEEE Access and Wiley’s RF and Microwave CAE. These recognitions affirm both his global academic standing and his sustained impact in the field of antenna engineering and applied electromagnetics.

Conclusion

In conclusion, Dr. Sudipta Chattopadhyay stands out as a distinguished academic and researcher with a career spanning over two decades in electronics and communication engineering. His solid educational background, enriched with a Ph.D. and honorary D.Sc., forms the foundation of his extensive teaching and research experience. His work in antenna design, microstrip technologies, and electromagnetic theory has earned him national and international acclaim, reflected in numerous awards, editorial roles, and fellowships. Dr. Chattopadhyay’s professional journey is marked by continuous academic growth, global engagement, and significant contributions to RF and microwave engineering. While further quantifiable metrics such as publication impact and funded research projects would strengthen his portfolio, his career achievements already position him as a leading voice in his field. His dedication to teaching, editorial leadership, and innovative research make him a strong candidate for honors like the Outstanding Scientist Award and a respected figure in the academic community.

Publications Top Notes

  • Title: Rectangular microstrip antenna on slot-type defected ground for reduced cross-polarized radiation
    Authors: A. Ghosh, D. Ghosh, S. Chattopadhyay, L.L.K. Singh
    Year: 2015
    Citations: 90

  • Title: Rectangular microstrip patch on a composite dielectric substrate for high-gain wide-beam radiation patterns
    Authors: S. Chattopadhyay, J.Y. Siddiqui, D. Guha
    Year: 2009
    Citations: 73

  • Title: Physical and quantitative analysis of compact rectangular microstrip antenna with shorted non-radiating edges for reduced cross-polarized radiation using modified cavity model
    Authors: D. Ghosh, S.K. Ghosh, S. Chattopadhyay, S. Nandi, D. Chakraborty, R. Anand, et al.
    Year: 2014
    Citations: 62

  • Title: Rectangular microstrips with variable air gap and varying aspect ratio: improved formulations and experiments
    Authors: S. Chattopadhyay, M. Biswas, J.Y. Siddiqui, D. Guha
    Year: 2009
    Citations: 58

  • Title: Rectangular microstrip antenna with dumbbell shaped defected ground structure for improved cross-polarized radiation in wide elevation angle and its theoretical analysis
    Authors: A. Ghosh, S. Chakraborty, S. Chattopadhyay, A. Nandi, B. Basu
    Year: 2016
    Citations: 53

  • Title: Estimation of gain enhancement replacing PTFE by air substrate in a microstrip patch antenna [antenna designer’s notebook]
    Authors: D. Guha, S. Chattopadhyay, J.Y. Siddiqui
    Year: 2010
    Citations: 53

  • Title: Improved polarization purity for circular microstrip antenna with defected patch surface
    Authors: A. Ghosh, S.K. Ghosh, D. Ghosh, S. Chattopadhyay
    Year: 2016
    Citations: 51

  • Title: Improved cross-polarized radiation and wide impedance bandwidth from rectangular microstrip antenna with dumbbell-shaped defected patch surface
    Authors: S. Chakraborty, A. Ghosh, S. Chattopadhyay, L.L.K. Singh
    Year: 2015
    Citations: 51

  • Title: Input impedance of probe-fed rectangular microstrip antennas with variable air gap and varying aspect ratio
    Authors: S. Chattopadhyay, M. Biswas, J.Y. Siddiqui, D. Guha
    Year: 2009
    Citations: 40

  • Title: DGS Integrated Air Loaded Wideband Microstrip Antenna for X and Ku Band
    Authors: T. Sarkar, A. Ghosh, L.K. Singh, S. Chattopadhyay
    Year: 2020
    Citations: 35

  • Title: A physical insight into the influence of dominant mode of rectangular microstrip antenna on its cross-polarization characteristics and its improvement with T-shaped microstrip
    Authors: S. Chattopadhyay, S. Chakraborty
    Year: 2018
    Citations: 32

  • Title: Substrate fields modulation with defected ground structure: a key to realize high gain, wideband microstrip antenna with improved polarization purity in principal and diagonal planes
    Authors: S. Chakraborty, S. Chattopadhyay
    Year: 2016
    Citations: 28

  • Title: Improved cross polarization and broad impedance bandwidth from simple single element shorted rectangular microstrip patch: theory and experiment
    Authors: R. Poddar, S. Chakraborty, S. Chattopadhyay
    Year: 2016
    Citations: 27

  • Title: Quasi-planar Composite Microstrip Antenna: Symmetrical Flat-Top Radiation with High Gain and Low Cross Polarization
    Authors: P.U. Ankush, S. Chakraborty, T. Sarkar, A. Ghosh, L.L.K. Singh, et al.
    Year: 2019
    Citations: 23

  • Title: Wide bandwidth microstrip antenna with defected patch surface for low cross polarization applications
    Authors: A. Ghosh, S. Chattopadhyay, L.L.K. Singh, B. Basu
    Year: 2017
    Citations: 19

Vassilios Sikavitsas | Chemical Engineering | Best Researcher Award

Published on by World Top Scientists

Prof. Vassilios Sikavitsas | Chemical Engineering | Best Researcher Award 

Professor at University of Oklahoma, United States

Professor Vassilios I. Sikavitsas is a distinguished researcher and educator in biomedical and chemical engineering at the University of Oklahoma. With a Ph.D. in Chemical Engineering from SUNY Buffalo and postdoctoral experience at Rice University, his work focuses on tissue engineering, cancer therapeutics, and bioreactor technologies. He has authored numerous high-impact publications and holds patents related to bone tissue engineering and scaffold design. Recognized multiple times as Best Professor by chemical engineering students, he has also mentored award-winning graduate researchers. His research bridges fundamental science and clinical application, notably in cancer exosome-based therapies and dynamic in vitro tumor models. Sikavitsas actively contributes to the scientific community through editorial board service and memberships in leading professional societies such as AIChE, BMES, and TERMIS. His commitment to interdisciplinary innovation, student development, and translational impact positions him as a leading figure in his field and a strong candidate for the Best Researcher Award.

Professional Profile

Google Scholar
Scopus Profile

Education

Professor Vassilios I. Sikavitsas holds a strong academic foundation in chemical engineering. He earned his Ph.D. (2000) and M.S. (1995) in Chemical Engineering from the State University of New York at Buffalo, where he built his expertise in biomaterials and tissue engineering. Prior to his graduate studies in the United States, he obtained a Diploma in Chemical Engineering from Aristotle University of Thessaloniki, Greece, in 1991. His educational trajectory reflects a progressive focus on biomedical applications within engineering, which laid the groundwork for his future research in regenerative medicine and bioreactor technologies. This combination of classical chemical engineering training and biomedical specialization has enabled him to operate at the intersection of engineering and life sciences, a hallmark of his interdisciplinary research. The international scope of his education also contributes to his broad perspective on engineering challenges and biomedical innovation.

Professional Experience

Professor Sikavitsas has built a distinguished academic career at the University of Oklahoma, where he currently serves as a Professor in the School of Chemical, Biological, and Materials Engineering and is affiliated with the Institute of Biomedical Engineering, Science, and Technology. He joined the university as an Assistant Professor in 2002 and was progressively promoted to Associate Professor in 2008 and Full Professor in 2015. His academic journey began with a postdoctoral research appointment in the Department of Bioengineering at Rice University from 2000 to 2002, where he deepened his expertise in tissue engineering. Throughout his academic appointments, he has established a dynamic and productive research laboratory, collaborated across disciplines, and contributed significantly to curriculum development in bioengineering. In addition to his academic duties, he serves on editorial boards and remains active in professional societies, enhancing his engagement with the broader scientific and engineering communities.

Research Interest

Professor Sikavitsas’s research is centered around tissue engineering, regenerative medicine, cancer biology, and bioreactor design. He specializes in the development of 3D biomimetic scaffolds, dynamic in vitro tumor models, and bone tissue constructs using advanced flow perfusion systems. His work investigates the role of mechanical stimulation and surface modifications in cell differentiation and tissue regeneration. In recent years, he has expanded into cutting-edge cancer research, exploring exosome-based drug delivery systems and tumor-immune interactions. His interdisciplinary projects bridge chemical engineering principles with biomedical applications, contributing to both fundamental understanding and clinical translation. Notable innovations include US patents on scaffold technology and tissue construct production. With an emphasis on bioreactor modeling and oxygen transport optimization, his work has practical implications in both regenerative therapies and anti-cancer strategies. His lab’s ability to combine experimental and computational methods distinguishes his contributions in the field of biomedical engineering.

Award and Honor

Professor Sikavitsas has received numerous awards and recognitions that reflect his excellence in research, teaching, and mentorship. He has been honored multiple times as the “Best Chemical Engineering Professor” by senior undergraduate students at the University of Oklahoma, recognizing his dedication to teaching and student engagement. As a research advisor, he has mentored students who have won prestigious accolades, including the Biomedical Engineering Society’s Best Dissertation Award and several Best Poster Awards at regional and national conferences. His achievements are further highlighted by multiple editorial board appointments in respected journals like the Journal of Functional Biomaterials and Scientifica (tissue engineering section). Additionally, his professional affiliations with AIChE, BMES, the Biomaterials Society, and TERMIS underscore his standing in the scientific community. These recognitions demonstrate his well-rounded excellence as a researcher, educator, and mentor, making him a strong role model and leader in his academic field.

Conclusion

Professor Vassilios I. Sikavitsas is a highly accomplished researcher and educator whose work bridges chemical engineering and biomedical science. His academic background, combined with over two decades of professional experience, has positioned him as a leader in tissue engineering, regenerative medicine, and cancer therapeutic research. His innovative work on bioreactors, scaffolds, and cancer exosomes has resulted in numerous peer-reviewed publications, patents, and awards. Equally committed to mentorship and education, he has been recognized for excellence in teaching and for guiding students toward national-level accolades. His involvement in editorial boards and leading scientific societies demonstrates a commitment to the advancement of science and engineering at large. Professor Sikavitsas’s sustained contributions to both research and academic service, along with his interdisciplinary impact, make him a compelling candidate for honors such as the Best Researcher Award. His career reflects a balance of innovation, collaboration, and academic leadership.

Publications Top Notes

  • Title: Fluid flow increases mineralized matrix deposition in 3D perfusion culture of marrow stromal osteoblasts in a dose-dependent manner
    Authors: GN Bancroft, VI Sikavitsas, J Van Den Dolder, TL Sheffield, CG Ambrose, et al.
    Year: 2002
    Citations: 901

  • Title: Biomaterials and bone mechanotransduction
    Authors: VI Sikavitsas, JS Temenoff, AG Mikos
    Year: 2001
    Citations: 815

  • Title: Mineralized matrix deposition by marrow stromal osteoblasts in 3D perfusion culture increases with increasing fluid shear forces
    Authors: VI Sikavitsas, GN Bancroft, HL Holtorf, JA Jansen, AG Mikos
    Year: 2003
    Citations: 595

  • Title: Formation of three‐dimensional cell/polymer constructs for bone tissue engineering in a spinner flask and a rotating wall vessel bioreactor
    Authors: VI Sikavitsas, GN Bancroft, AG Mikos
    Year: 2002
    Citations: 541

  • Title: Design of a flow perfusion bioreactor system for bone tissue-engineering applications
    Authors: GN Bancroft, VI Sikavitsas, AG Mikos
    Year: 2003
    Citations: 529

  • Title: In vitro generated extracellular matrix and fluid shear stress synergistically enhance 3D osteoblastic differentiation
    Authors: N Datta, QP Pham, U Sharma, VI Sikavitsas, JA Jansen, AG Mikos
    Year: 2006
    Citations: 521

  • Title: Effect of flow perfusion on the osteogenic differentiation of bone marrow stromal cells cultured on starch‐based three‐dimensional scaffolds
    Authors: ME Gomes, VI Sikavitsas, E Behravesh, RL Reis, AG Mikos
    Year: 2003
    Citations: 468

  • Title: Effect of bone extracellular matrix synthesized in vitro on the osteoblastic differentiation of marrow stromal cells
    Authors: N Datta, HL Holtorf, VI Sikavitsas, JA Jansen, AG Mikos
    Year: 2005
    Citations: 388

  • Title: Flow perfusion enhances the calcified matrix deposition of marrow stromal cells in biodegradable nonwoven fiber mesh scaffolds
    Authors: VI Sikavitsas, GN Bancroft, JJ Lemoine, MAK Liebschner, M Dauner, et al.
    Year: 2005
    Citations: 247

  • Title: Flow perfusion culture of marrow stromal osteoblasts in titanium fiber mesh
    Authors: J van den Dolder, GN Bancroft, VI Sikavitsas, PHM Spauwen, JA Jansen, et al.
    Year: 2003
    Citations: 205

  • Title: Pre‐culture period of mesenchymal stem cells in osteogenic media influences their in vivo bone forming potential
    Authors: H Castano‐Izquierdo, J Álvarez‐Barreto, J Dolder, JA Jansen, AG Mikos, et al.
    Year: 2007
    Citations: 203

  • Title: Tuning the biomimetic behavior of scaffolds for regenerative medicine through surface modifications
    Authors: NR Richbourg, NA Peppas, VI Sikavitsas
    Year: 2019
    Citations: 196

  • Title: Flow perfusion improves seeding of tissue engineering scaffolds with different architectures
    Authors: JF Alvarez-Barreto, SM Linehan, RL Shambaugh, VI Sikavitsas
    Year: 2007
    Citations: 171

  • Title: Polypyrrole thin films formed by admicellar polymerization support the osteogenic differentiation of mesenchymal stem cells
    Authors: H Castano, EA O’Rear, PS McFetridge, VI Sikavitsas
    Year: 2004
    Citations: 158

  • Title: Influence of the in vitro culture period on the in vivo performance of cell/titanium bone tissue‐engineered constructs using a rat cranial critical size defect model
    Authors: VI Sikavitsas, J Dolder, GN Bancroft, JA Jansen, AG Mikos
    Year: 2003
    Citations: 150