Varun Sabu Sam | Engineering | Emerging Scientist Award

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Mr. Varun Sabu Sam | Engineering | Emerging Scientist Award

Karunya University, India

Author Profile

Early Academic Pursuits 🎓

Varun Sabu Sam embarked on his academic journey with a clear inclination toward engineering, particularly structural engineering. His educational background provided him with foundational knowledge in design and analysis, a crucial skill set for aspiring engineers. This early phase was marked by a continuous pursuit of knowledge, as he attended various webinars, seminars, and conferences, all of which contributed to his growing interest in structural engineering and materials science. His commitment to academia allowed him to stay updated on the latest trends and advancements, especially in fields like cold-formed steel structures and flexural behavior.

Professional Endeavors 🛠️

With over three years of experience as a researcher and engineer, Varun has already made significant strides in his career. Working on dynamic and challenging projects, he demonstrated an ability to apply theoretical knowledge to practical situations, bridging the gap between academia and industry. His expertise in Finite Element Method (FEM) modeling and steel simulations stands as a testament to his dedication and technical prowess. Not only is he proficient in industry-standard software for design and analysis, but he has also consistently worked to improve his technical skills to meet project demands. His professional growth has been supported by his flexibility and adaptability to various work environments, making him a valuable asset to any organization.

Contributions and Research Focus 🔬

Varun’s research interests are both innovative and crucial in the field of structural engineering. His focus on cold-formed steel structures reveals his dedication to enhancing the safety and efficiency of modern construction materials. Cold-formed steel is increasingly popular in construction due to its lightweight and high-strength properties. Varun’s research has delved into understanding the flexural behavior of this material, assessing how it responds under different loads and conditions. His expertise extends to parametric analysis and behavioral studies of cold-formed steel at elevated temperatures, which is critical in understanding how materials perform under extreme conditions, such as fires or high-stress scenarios.His contributions in FEM modeling are particularly noteworthy, as they involve complex simulations that predict how materials behave under various loads and configurations. Through these simulations, Varun can analyze parameters like load-bearing capacity and stress distribution, helping to refine design strategies and improve material safety. His ability to utilize FEM modeling and software tools highlights his dedication to producing high-quality research that meets the demands of modern engineering.

Accolades and Recognition 🏆

Though relatively early in his career, Varun’s consistent efforts and expertise have already garnered recognition. His active participation in industry-related webinars, seminars, and conferences has not only expanded his knowledge but has also allowed him to establish valuable connections within the field. Such recognition has encouraged him to pursue projects that address real-world engineering challenges, demonstrating his commitment to impacting the structural engineering domain positively.

Impact and Influence 🌍

Varun’s work in cold-formed steel structures and FEM modeling has implications for both the engineering and construction industries. By exploring the behavior of cold-formed steel at elevated temperatures, he contributes to the development of safer, more resilient building materials. His research is especially relevant in a world that demands sustainable and durable infrastructure to withstand changing environmental conditions. Varun’s expertise in steel simulations and parametric analysis adds significant value, as it allows for the optimization of materials, contributing to cost-effective and efficient structural designs.

Legacy and Future Contributions 🌟

Varun’s journey is only beginning, but his aspirations are clear. He aims to continue contributing to structural engineering by delving deeper into material resilience and safety. His work on cold-formed steel and flexural behavior positions him as a valuable researcher focused on tackling some of the industry’s most pressing challenges. As he continues to refine his skills and gain experience, Varun is committed to leaving a lasting legacy of innovation and impact. By applying his knowledge and technical expertise to real-world projects, he hopes to inspire future engineers to prioritize safety, resilience, and sustainability.

Citations

A total of 14 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations        14
  • h-index           3
  • i10-index        0

Notable Publications 

  1. Influence of Elevated Temperature on Buckling Capacity of Mild Steel-Based Cold-Formed Steel Column Sections–Experimental Investigation and Finite Element Modelling
    Authors: V. Sabu Sam, M.S. Adarsh, G.R. Lyngdoh, G.W.K. Marak, N. Anand, K. Al-Jabri, …
    Journal: Journal of Structural Fire Engineering, 15(3), 314-337
    Year: 2024.
  2. Investigation on Residual Mechanical Properties of Galvanized Iron Cold-Formed Steel Sections Exposed to Elevated Temperatures
    Authors: V.S. Sam, N. Anand, G.W.K. Marak, G.R. Lyngdoh, J. Alengaram, D. Andrushia
    Journal: Electronic Journal of Structural Engineering, 24(1), 53-59
    Year: 2024.
  3. Flexural Behavior of Galvanized Iron-Based Cold-Formed Steel Back-to-Back Built-Up Beams at Elevated Temperatures
    Authors: V.S. Sam, A. Nammalvar, D. Andrushia, B.G.A. Gurupatham, K. Roy
    Journal: Buildings, 14(8), Article 2456
    Year: 2024.
  4. Influence of Section Profiles on Flexural Behavior of Unsymmetrical Cold-Formed Steel Sections–Analytical and Numerical Investigation
    Authors: V. Sabu Sam, N. Anand, R. Kumar, D. Andrushia
    Journal: Journal of Structural Fire Engineering
    Year: 2024.
  5. Flexural Behavior of Cold-Formed Mild Steel Beams with Web Holes Exposed to High Temperature: Analytical and Experimental Investigation
    Authors: V.S. Sam, N. Anand, M.Z. Naser
    Journal: Innovative Infrastructure Solutions, 9(10), Article 1-23
    Year: 2024.

Sheetal Singh | Microelectronics | Best Researcher Award

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Ms. Sheetal Singh | Microelectronics | Best Researcher Award

Institute of Engineering and Technology, India

Author Profile

Early Academic Pursuits 🎓

Sheetal Singh’s academic journey began with a solid foundation in the sciences. She completed her 10th grade at Children College School, Azamgarh, with commendable marks (74.57%). This early success fueled her passion for learning, leading her to KIC Baghara School for her 12th grade, where she achieved a score of 77.2%. Her commitment to academic excellence continued as she pursued a Bachelor of Technology (B.Tech) in Electrical and Electronics Engineering from the Krishna Institute of Engineering Technology, Ghaziabad, where she graduated in 2015 with a notable 75.54%. This formative phase not only equipped her with the technical skills necessary for a career in engineering but also nurtured her interest in research and innovation.Building on her undergraduate experience, Sheetal enrolled in the M.Tech program in VLSI at the Indira Gandhi Delhi Technical University for Women, where she excelled with a score of 79.75%. Her master’s thesis focused on low-power VLSI designs, marking the beginning of her journey into the intricate world of microelectronics. This phase of her education solidified her technical expertise and prepared her for advanced studies in the field.

Professional Endeavors 💼

Sheetal’s professional career began with her role as a Lecturer in the Diploma Electrical Engineering Department at Maa Vaishno Maa Sharda Polytechnic, Azamgarh, from July 2015 to July 2017. During this time, she developed and delivered course content that engaged students and sparked their interest in engineering principles. Her teaching experience enhanced her communication skills and gave her the opportunity to mentor budding engineers, reinforcing her commitment to education.In 2019, Sheetal joined the Institute of Engineering and Technology (IET), Lucknow, as a Contractual Assistant Professor. In this capacity, she contributed significantly to the academic environment, guiding students through their courses and projects while also engaging in her research pursuits. Her time at IET marked a crucial phase in her career, as she transitioned from academia to a more research-oriented role while continuing to educate the next generation of engineers.

Contributions and Research Focus 🔬

Currently, Sheetal is pursuing a Ph.D. in Microelectronics at the Institute of Engineering and Technology, Lucknow. Her research focuses on advancing the field of microelectronics, particularly in low-power VLSI design. This area is critical in today’s technological landscape, where energy efficiency is paramount. Through her doctoral research, she aims to innovate and develop methodologies that could lead to significant reductions in power consumption in electronic devices, contributing to the broader goal of sustainable technology.Moreover, Sheetal undertook notable projects during her educational journey. Her post-graduation project, which involved the design and analysis of a 4X1 multiplexer using multiple logic styles, highlighted her focus on reducing power consumption through advanced techniques like DTMOS and VTMOS. This project demonstrated her ability to apply theoretical knowledge to practical challenges, a crucial skill in engineering research. Additionally, her graduation project on an RFID-based automatic challan system showcased her innovative thinking and practical application of technology to real-world problems.

Accolades and Recognition 🏆

Throughout her academic and professional journey, Sheetal has earned recognition for her contributions to the field of engineering. Her teaching methodology, coupled with her dedication to student success, has garnered appreciation from both colleagues and students alike. She is known for her ability to simplify complex concepts and inspire students to pursue their interests in engineering and technology.Sheetal’s research endeavors, particularly her work on low-power VLSI, have the potential to lead to publications in reputable journals, further establishing her as a thought leader in her field. Her commitment to advancing her knowledge through continual learning and research is commendable.

Impact and Influence 🌍

Sheetal Singh’s influence extends beyond her immediate academic environment. By mentoring students and engaging in community outreach, she has played a vital role in promoting engineering education in her locality. Her projects, which blend technology with practical applications, have inspired many aspiring engineers to think critically and creatively about solving real-world challenges.

Legacy and Future Contributions 🔮

As Sheetal continues her Ph.D. studies and contributes to the field of microelectronics, her legacy will likely be defined by her commitment to innovation and education. She aspires to contribute to the development of energy-efficient technologies that not only advance the field but also promote sustainability. Her vision is to continue her research while teaching, thereby shaping future engineers who are equally dedicated to innovation and responsible technology use.In conclusion, Sheetal Singh’s journey through academia and professional endeavors showcases her unwavering dedication to education, research, and innovation in the field of engineering. Her future contributions hold the promise of significant advancements in microelectronics, solidifying her place as a valuable asset to the engineering community.

Citations

A total of 07 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations         07
  • h-index           5
  • i10-index        1

Notable Publications 

  • Title: Linearity and noise evaluation based analysis of extended source heterojunction double gate tunnel FET
    Authors: Singh, S., Wairya, S.
    Journal: Micro and Nanostructures
    Year: 2024.
  • Title: Dual Source Vertical TFET Channel Overlapped Structure with Enhanced RF/Analog Performance for Low-Power Applications
    Authors: Archana, Singh, S., Wairya, S.
    Conference: 2023 2nd International Conference on Trends in Electrical, Electronics and Computer Engineering, TEECCON 2023
    Year: 2023.
  • Title: Sub-Threshold Swing Analysis for NC-TFET in Low-Power Biomedical Applications
    Authors: Singh, S., Wairya, S.
    Conference: Proceedings of 5th International Conference on 2023 Devices for Integrated Circuit, DevIC 2023
    Year: 2023.
  • Title: A Comparative Analysis of Radio Frequency Band Pass Filters for Wireless Communication Application
    Authors: Singhal, C., Srivastava, N., Singh, S.
    Conference: 2022 IEEE Global Conference on Computing, Power and Communication Technologies, GlobConPT 2022
    Year: 2022.
  • Title: Performance Analysis of SRAM Cell Designed using MOS and Floating-gate MOS for Ultralow Power Technology
    Authors: Bharti, S., Kumar, A., Kandari, R., Singh, S.
    Conference: Proceedings – 2019 4th International Conference on Internet of Things: Smart Innovation and Usages, IoT-SIU 2019.

Karuppuchamy Navamani | Semiconductor | Best Researcher Award

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Dr. Karuppuchamy Navamani - Semiconductor - Best Researcher Award🏆 

KPR Institute of Engineering and Technology - India

Professional Profiles

Early Academic Pursuits

He embarked on his academic journey with a strong foundation in physics. Graduating with a Bachelor of Science in Physics from Rama Prabha College of Arts and Science, Dindigul, Tamil Nadu, he exhibited a keen interest in unraveling the mysteries of the universe through his project on the spectral distribution of the cosmos. This early academic pursuit laid the groundwork for his future endeavors in theoretical physics and materials science.

Professional Endeavors

With a thirst for knowledge and a passion for research, he pursued higher education, earning his Master of Science in Physics from Kongunadu Arts and Science College and his Doctor of Philosophy from Bharathiar University. His doctoral research focused on charge carrier dynamics in few π-stacked organic molecules, under the guidance of Prof. K. Senthilkumar. This period marked the beginning of his exploration into semiconductor materials and their intriguing properties.

Contributions and Research Focus in Semiconductor

His research has centered around semiconductor materials, electronics, and technology. His post-doctoral fellowship at the Jawaharlal Nehru Centre for Advanced Scientific Research (JNCASR) provided him with the opportunity to delve deeper into this field. His work on modeling charge carrier mobilities in two-dimensional semiconducting materials and studying the decoupling mechanism of charge-heat currents for thermoelectricity in nanosystems showcases his commitment to advancing our understanding of semiconductor physics.

Accolades and Recognition

Throughout his academic and professional journey, he has garnered recognition for his contributions to the field of semiconductor research. As a Junior and Senior Research Fellow funded by the Department of Science and Technology, Government of India, he demonstrated his aptitude for conducting groundbreaking research. His seminal work on the entropy-ruled Einstein relation for diffusion-mobility and the Navamani-Shockley diode equation has earned him acclaim in the scientific community.

Impact and Influence

His research has left a lasting impact on the semiconductor industry, paving the way for advancements in materials science and electronics. His insights into charge transport properties in organic molecules and semiconductor materials have contributed to the development of innovative technologies and devices. His collaborations with leading researchers and institutions have further solidified his influence in the field.

Legacy and Future Contributions

As an Assistant Professor of Physics at KPR Institute of Engineering and Technology, he continues to inspire the next generation of scientists and engineers. His dedication to research excellence and his commitment to pushing the boundaries of semiconductor physics serve as a beacon for aspiring researchers. With a focus on developing suitable models for studying diffusion-drift mobility in quantum many-body systems, his future contributions hold the promise of shaping the future of semiconductor technology.

Citations

  • Citations               153
  • h-index                  8
  • i10-index               6

Notable Publications

Kashinath Bogle | Thin film and Devices | Excellence in Applied Research Award

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Assist Prof Dr. Kashinath Bogle - Thin film and Devices - Excellence in Applied Research Award 🏆 

Swami Ramanand Teerth Marathwada University, Nanded - India

Professional Profiles

Early Academic Pursuits

He embarked on his academic journey with a keen interest in the realm of thin film and devices. His passion for understanding semiconductor materials and nanotechnology drove him to pursue higher education in this field. During his undergraduate studies, he delved deep into the fundamentals of electronics and semiconductor physics, laying a solid foundation for his future endeavors. His academic pursuits were marked by rigorous research and a thirst for knowledge, shaping his path towards becoming a renowned expert in thin film technology.

Professional Endeavors

After completing his academic qualifications, he transitioned into the professional world with a strong focus on thin film and devices. He embarked on a career dedicated to advancing semiconductor technology and exploring the potential of thin film materials in various applications. Bogle's professional journey led him to collaborate with leading research institutions and industry partners, where he contributed his expertise to cutting-edge projects and technological innovations.

Contributions and Research Focus in Thin film and Devices

Throughout his career, he has made significant contributions to the field of thin film and devices. His research has focused on the development of novel thin film materials, fabrication techniques, and device integration strategies. Bogle's work has led to advancements in semiconductor technology, enabling the creation of high-performance electronic devices with enhanced functionality and reliability. His research endeavors have spanned a wide range of applications, including optoelectronics, photovoltaics, sensors, and more, demonstrating the versatility and potential of thin film materials in modern technology.

Accolades and Recognition

His contributions to thin film and devices have garnered widespread acclaim and recognition within the scientific community. He has been honored with prestigious awards such as the Excellence in Applied Research Award, acknowledging his outstanding achievements and innovative research efforts. Bogle's work has been published in top-tier scientific journals and presented at international conferences, further solidifying his reputation as a leading authority in the field.

Impact and Influence

His research in thin film and devices has had a profound impact on various industries and sectors. His advancements have paved the way for the development of next-generation electronic devices with improved performance, efficiency, and functionality. Bogle's innovative solutions have been instrumental in addressing key challenges in semiconductor technology, driving progress and innovation in fields such as communications, energy, healthcare, and beyond. His work continues to inspire and influence researchers, engineers, and innovators worldwide, shaping the future of thin film technology.

Legacy and Future Contributions

As a trailblazer in the field of thin film and devices, his legacy is defined by his pioneering research, groundbreaking discoveries, and enduring contributions to science and technology. His work has laid the groundwork for future advancements in semiconductor materials and device technology, opening up new possibilities for innovation and discovery. Bogle remains committed to pushing the boundaries of knowledge and exploring the untapped potential of thin film materials, with a vision of creating transformative technologies that will shape the future of electronics and beyond.

Citations

  • Citations               1544
  • h-index                 19
  • i10-index              32

Notable Publications

Hemavathi B | Organic Semiconductors for Energy | Best Researcher Award

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Dr. Hemavathi B - Organic Semiconductors for Energy - Best Researcher Award 🏆

Dayananda Sagar College of Engineering - India

Professional Profiles

Early Academic Pursuits

Her academic journey is marked by a profound commitment to the field of Chemistry, with a focus on renewable energy and organic semiconductors. She obtained her Bachelor's degree in Polymer Science and Technology from Sri Jayachamarajendra College of Engineering, where she excelled with distinction. Her passion for research led her to pursue a Master's degree in Chemistry from Bhuvaneshwari College, followed by an M.Phil and Ph.D. in Chemistry from the Centre for Nano and Materials Science at Jain University. Her doctoral thesis, titled "Synthesis of conjugated small molecules and polymers for photovoltaic applications," reflects her early dedication to exploring the potential of organic semiconductors for energy generation.

Professional Endeavors

Her professional journey encompasses diverse roles in academia and industry, all centered around her expertise in organic semiconductors for energy applications. She has served as both a Junior and Senior Research Fellow at the Centre for Nano and Material Science, Jain University, where she focused on synthesizing organic molecules and polymers for solar cell applications. Additionally, she has contributed to the academic community as a Lecturer of Chemistry at CPP Junior College, Bangalore. Her industry experience includes roles at LM Glasfiber India Pvt. Ltd., where she worked in production technology application and planning.

Contributions and Research Focus in Organic Semiconductors for Energy

Her research is characterized by her pioneering work in designing and synthesizing conjugated organic molecules and polymers for renewable energy applications. She has made significant contributions to the fabrication of solar cell devices, including dye-sensitized solar cells (DSSCs) and organic photovoltaics (OPVs). Her expertise extends to a range of analytical techniques, including IR, UV, PL, CV, and interpretation of molecules using NMR and mass spectrometry. Through her research, She aims to advance the field of organic electronics and contribute to the development of sustainable energy solutions.Organic semiconductors for energy represent a promising avenue for advancing renewable energy technologies. These materials, derived from organic compounds, offer unique properties that make them attractive for applications such as photovoltaics, energy harvesting, and energy storage. Organic semiconductors hold the potential to revolutionize the renewable energy landscape by enabling the development of efficient, cost-effective, and environmentally friendly energy solutions.

Accolades and Recognition

Her contributions to the field of organic semiconductors for energy have been recognized through various accolades and acknowledgments. Her research publications and presentations have garnered attention within the scientific community, showcasing her innovative approaches and insights. Additionally, her hands-on experience with advanced analytical techniques has positioned her as a respected authority in the field of renewable energy research. Organic electronics, including organic photovoltaics (OPVs) and thin-film transistors (TFTs), are key areas of research within the field of organic semiconductors for energy. OPVs, in particular, hold great promise for solar energy conversion due to their lightweight, flexible, and potentially low-cost nature. By harnessing sunlight and converting it into electricity, organic solar cells pave the way for decentralized energy generation and offer a sustainable alternative to traditional fossil fuel-based power sources.

Impact and Influence

Her research has had a tangible impact on the advancement of renewable energy technologies, particularly in the realm of organic semiconductors. Her work has contributed to the understanding and optimization of materials for solar cell applications, paving the way for more efficient and cost-effective energy harvesting solutions. Furthermore, her mentorship and guidance have inspired future generations of researchers to pursue careers in sustainable energy and organic electronics.

Legacy and Future Contributions

Her legacy is defined by her dedication to pushing the boundaries of knowledge in the field of organic semiconductors for energy. As she continues her academic and research endeavors, she remains committed to exploring new avenues for enhancing the performance and scalability of renewable energy technologies. Her future contributions hold the promise of unlocking new insights and innovations that will shape the future of sustainable energy production and utilization. Her legacy will endure through her ongoing commitment to advancing the frontiers of renewable energy research and her influence on the next generation of scientists and engineers in the field.

Citations

  • Citations               249
  • h-index                   10
  • i10-index                10

Notable Publications