Theertharaman Govindasamy | EMI Shielding and Microwave absorption | Best Researcher Award

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Theertharaman Govindasamy | EMI shielding and Microwave absorption | Best Researcher Award

Mr Theertharaman Govindasamy University of Madras, India

He is a dedicated academician with a passion for nanoscience and nanotechnology. His academic journey includes earning a Ph.D. in Nanoscience & Nanotechnology from the University of Madras, where he submitted his thesis between September 2019 and September 2023. Prior to his doctoral studies, he excelled in his M.Sc. in Physics at Arignar Anna Government Arts College, Periyar University, graduating with distinction (73%) from July 2016 to April 2018. Alongside his academic achievements, he possesses extensive expertise in operating advanced laboratory instruments, particularly Electrospinning instruments, showcasing precision in producing nanofibers with controlled properties. His proficiency extends to Spin coating techniques, enabling uniform thin film applications for various purposes. With a strong academic background and practical skills, he contributes significantly to the advancement of nanoscience and technology.

Education:

He pursued his academic journey with zeal and dedication, culminating in significant achievements. He completed his Ph.D. in Nanoscience & Nanotechnology at the University of Madras from September 2019 to September 2023, where he submitted his thesis. Prior to his doctoral studies, he attained his M.Sc. in Physics from Arignar Anna Government Arts College, Periyar University, graduating with distinction (73%) from July 2016 to April 2018. He also holds a B.Sc. in Physics from Salem Sowdeswari College, Periyar University, where he achieved a commendable score of 67% from June 2013 to April 2016. His academic journey commenced with his Higher Secondary education at Government Higher Secondary School from April 2011 to April 2013, where he demonstrated consistent dedication, achieving a score of 60%. He completed his Leaving Certificate from the same institution in March 2011, with a commendable score of 67%. Through his academic pursuits, he has showcased diligence, determination, and a passion for learning.

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Experience:

He possesses extensive expertise in operating various advanced laboratory instruments and equipment. With a strong proficiency in operating Electrospinning instruments, he demonstrates precision and skill in producing nanofibers with controlled morphology and properties. Additionally, he has hands-on experience in Spin coating techniques, allowing him to apply thin films uniformly onto substrates for various applications. His technical capabilities extend to operating High temperature furnaces and conducting spray pyrolysis processes, enabling the synthesis of materials under controlled thermal conditions. Furthermore, he is adept at utilizing Photocatalytic reactors, Gas sensors, Electrochemical Workstations, and Four-probe systems, showcasing his versatility in conducting experiments across a range of research areas, from environmental remediation to sensor development. Through his practical experience and adeptness with advanced laboratory equipment, he contributes significantly to research endeavors, facilitating the exploration of novel materials and technologies.

Publications:

  1. Electromagnetic shielding performance of reduced graphene oxide reinforced iron oxide nanostructured materials prepared by polyol method Cited By : 8, Published By : 2022
  2. Investigation on evaluation of Fe3S4–Carbon black nanohybrids for EMI shield in X-band region Cited By : 7, Published By : 2023
  3. Probing the influence of liquid nitrogen assisted chemical reduction on the nature of passivation layer, magnetic properties, and Cr (VI) remediation performance of nanoscale  Cited By : 6, Published By : 2023
  4. High-performance EMI shielding effectiveness of Fe3O4–3D rPC nanocomposites: a systematic optimization in the X-band region Cited By : 3, Published By : 2023
  5. Enhanced magnetic behavior of hydrogenated Fe and FeCo nanoparticles prepared by chemical reduction method Cited By : 3, Published By : 2020
  6. Systematic Exploration of Defect-rich 2D Nanopetal Assembled 3D ZnO Nanoflowers for Improved Photocurrent Generation and Photocatalytic Performance Cited By : 2, Published By : 2024
  7. Evaluating the microwave absorbing performance of polymer-free thin Fe3O4–MWCNT NCs in X-band region Cited By : 2, Published By : 2024
  8. Modulating the structural and magnetic properties of Fe3O4 NPs for high-performance supercapattery and EMI shielding applications Cited By : 1, Published By : 2024
  9. Synergistic Advancements in Electromagnetic Interference Shielding: Harnessing Fe3O4 Nanoparticles and Biomass-Derived N-Doped Carbon-Layered Structure  Published By : 2024
  10. Cognizing the electromagnetic shielding performance of ultrafine magnetite (Fe3O4) and a few layers of carbon black nanocomposite in the X-band region Published By : 2023

 

Uthayakumar G S | Electronics and Communication | Best Researcher Award

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Uthayakumar G S | Electronics and Communication | Best Researcher Award

Dr Uthayakumar G S St.Joseph’s Institute of Technology, India

He is an Electronics and Communication Engineer with an M.B.A in Marketing and an M.E. in Medical Electronics. He completed his Ph.D. at the College of Engineering, Anna University. Additionally, he holds a Master of Social Work (M.S.W) from IGNOU, New Delhi. With over 31 years of experience, he has amassed expertise in various IT fields, boasting 12 years of design and development experience and 20 years of teaching experience. He has authored more than 30 international journal papers and presented papers at numerous international and national conferences across different engineering colleges. He is also the author of four books, covering topics such as Artificial Intelligence, Machine Learning, Digital Electronics, Electromagnetic Fields, and VLSI Design. Furthermore, he has spearheaded the establishment of various IEEE technical student branch chapters, including the Communication Society, Antenna and Propagation Society, Industrial Electronics Society, Engineering in Medicine and Biology Society, Broadcast Technology Society, Computer Society, Computational Intelligence Society, and Control Systems Society at his college.

Education:

He completed his S.S.L.C from BSE, TN GHSS in Podaturpet in 1984, securing first division with a score of 76. He continued his education with H.S.C from the same institution in 1986, again achieving first division with a score of 78. Moving on to higher education, he pursued B.E. in Electronics and Communication Engineering from Madras University APEC, Melmaruvathur, graduating in 1990 with a first division and a score of 68. He later obtained an M.B.A. from IGNOU New College in 2001, earning a B-Grade with a first division. Subsequently, he pursued an M.E. from Anna University CEG, Guindy, graduating with a first division and a B-Grade in 2010. He then embarked on a Ph.D. journey at Anna University CEG, Guindy, starting on 19.12.18. He furthered his academic pursuits with an M.S.W from IGNOU Gurunanak Arts and Science College in 2021, achieving a first division with a B-Grade. Additionally, he completed an H.D.I.N.C.C from NIIT, Parrys in 1998, securing first division with a score of 61.

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Experience:

He has served as an Associate Professor at St. Joseph’s Institute of Technology, Chennai since June 2019. Prior to this, he held the position of Associate Professor at St. Joseph’s College of Engineering, Chennai, from August 2008 to May 2019. Before joining St. Joseph’s College of Engineering, he served as the Vice Principal at Lord Venkateshwaraa Engineering College, Puliyambakkam, from August 2006 to July 2008, where he also held the position of Head of the Department for Electronics and Communication Engineering (ECE) from August 2005 to July 2006. He started his career as the Head of the Department for ECE at Kalsar College of Engineering, Chennai, from August 2004 to August 2005. Throughout his tenure in these roles, he has demonstrated leadership and expertise in the field of electronics and communication engineering.

Publications:

  1. Biomedical Optical spectroscopy techniques for Diagnosis of Human saliva sample Cited By : 7, Published By : 2013
  2. Mobile phone usage and cancer Cited By : 6, Published By : 2008
  3. Nanoparticle analysis for various medicinal drugs and human body saliva at macromolecular level Cited By : 5, Published By : 2015
  4. A novel technique to monitor human body vital signs Cited By : 5, Published By : 2013
  5. Early Stage Disease Diagnosis Using Human Nail In Image Processing Cited By : 3, Published By : 2021
  6. Biomedical optical analytical techniques to analyse the medicinal drugs and optical properties of tissues Cited By : 3, Published By : 2013
  7. Systematically efficiency enabled energy usage method for an IOT based WSN environment Cited By : 2, Published By : 2023
  8. Design criteria for enhanced energy constraint MAC protocol for WSN Cited By : 1, Published By : 2023
  9. Energy Conservation for Environment Monitoring System in an IoT based WSN Cited By : 1, Published By : 2022
  10. Characterization And Quantization Of Medicinal Drugs Using Biomedical Optical Spectroscopy Methods Cited By : 1, Published By : 2023