Shruti Kaushik | Energy | Best Researcher Award

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Ms. Shruti Kaushik | Energy | Best Researcher Award

Ms. Shruti Kaushik, National Institute of Technology, Kurukshetra, India

Shruti Kaushik is a highly motivated and talented researcher in the field of nanomaterials and nanotechnology, with a focus on energy storage applications. She holds a Bachelor of Technology in Computer Science and Engineering from Maharshi Dayanand University, and a Master of Technology in Nanomaterials and Nanotechnology from the National Institute of Technology, Kurukshetra. Shruti’s research primarily revolves around the development of high-performance supercapacitor devices using advanced materials like Zeolitic Imidazolate Framework-67 (ZIF-67). Her work has led to multiple publications in prominent journals, contributing to advancements in sustainable energy solutions. With a strong academic background and a passion for clean energy, Shruti continues to excel in her research, furthering her expertise in energy storage technologies.

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Suitability for the “Research for Best Researcher Award” – Shruti Kaushik

Shruti Kaushik has demonstrated exceptional academic performance and research aptitude that makes her a strong candidate for the Research for Best Researcher Award. With a Master of Technology in Nanomaterials and Nanotechnology from the prestigious National Institute of Technology, Kurukshetra, India, and a remarkable CGPA of 9.98/10, Shruti’s academic background reflects a high level of dedication and excellence. Her undergraduate education in Computer Science and Engineering at Maharshi Dayanand University further solidifies her diverse skill set and ability to adapt to various research domains.

Her postgraduate project on the fabrication of asymmetrical supercapacitor devices with Zeolitic Imidazolate Framework-67 (ZIF-67) stands out due to the innovative approach she employed. Shruti’s work involved synthesizing ZIF-67 under various conditions and evaluating its structural, morphological, and electrochemical properties. She fabricated both planar and coin cell supercapacitors and demonstrated their practical applicability, which could significantly impact the field of energy storage. These accomplishments highlight her ability to conduct cutting-edge research with real-world applications, particularly in the areas of energy storage and nanomaterials.

🎓 Education

Shruti Kaushik completed her Bachelor of Technology in Computer Science and Engineering at Maharshi Dayanand University, Rohtak, Haryana, India (Aug 2017 – May 2021) with a CGPA of 7.78/10. Following this, she pursued a Master of Technology in Nanomaterials and Nanotechnology at the National Institute of Technology, Kurukshetra, India (Aug 2022 – Jun 2024), where she achieved an impressive CGPA of 9.98/10. Her academic excellence has been marked by her deep interest in nanotechnology and energy storage materials, which has led her to focus on the development of supercapacitor devices with advanced materials for enhanced energy storage applications.

💼 Professional Experience

Shruti Kaushik has been actively involved in research since her postgraduate studies, particularly working on the fabrication of asymmetrical supercapacitor devices using Zeolitic Imidazolate Framework-67 (ZIF-67). During her project, she synthesized ZIF-67 under various conditions to enhance its cyclic stability and capacitance. Her research included studying the structural properties of ZIF-67 using various characterization techniques such as SEM, TEM, BET, and XRD, and evaluating its electrochemical performance for energy storage applications. Shruti has also presented her findings at various national and international conferences and symposia, contributing to the ongoing development of energy storage technologies.

🏅 Awards and Recognition

Shruti Kaushik has received several awards for her outstanding contributions to research and innovation. She earned the 2nd Prize for Best Model/Technology Presentation at the Student Research Symposium 2023, organized by IEEE NTC at IIT Indore. She also received a Consolation Prize for the best oral presentation at the same event. Additionally, Shruti was awarded the All India Council for Technical Education (AICTE) Graduate Aptitude Test in Engineering (GATE) Scholarship in 2022. These recognitions underscore her ability to make significant advancements in energy storage technology and her potential for future contributions to the field.

🌍 Research Skill On Energy

Shruti Kaushik is proficient in a range of research skills related to nanotechnology and energy storage. Her expertise includes the synthesis and characterization of advanced materials such as Zeolitic Imidazolate Framework-67 (ZIF-67), using techniques like SEM, TEM, BET, and XRD for structural analysis. She is highly skilled in electrochemical testing, utilizing methods like cyclic voltammetry (CV), galvanostatic charge-discharge (GCD), and electrochemical impedance spectroscopy (EIS) to assess the performance of supercapacitor devices. Shruti’s research has greatly contributed to the understanding and application of these materials in energy storage systems, particularly in achieving enhanced capacitance and stability in supercapacitors.

📖 Publication Top Notes

  • Title: Asymmetric supercapacitor device fabrication of pristine Zeolitic Imidazolate Framework-67 with ultrahigh performance and cyclic stability
    Authors: S Kaushik, P Chand, S Sharma
    Journal: Journal of Energy Storage
    Citation: 78, 110033
    Year: 2024
  • Title: High-performance pristine ZIF-67 asymmetric supercapacitor device with excellent energy and power density for energy storage application
    Authors: S Kaushik, P Chand, S Sharma
    Journal: Electrochimica Acta
    Citation: 144565
    Year: 2024
  • Title: Recent advancements in cathode materials for high-performance Li-ion batteries: Progress and prospects
    Authors: S Kaushik, T Mehta, P Chand, S Sharma, G Kumar
    Journal: Journal of Energy Storage
    Citation: 97, 112818
    Year: 2024
  • Title: A critical review of recent advancements in zinc-based metal-organic framework nanocomposites and their derivatives for supercapacitor applications with future perspectives and …
    Authors: S Sharma, P Chand, S Kaushik
    Journal: Sustainable Materials and Technologies
    Citation: e01045
    Year: 2024
  • Title: Green Supercapacitors: Design, Fabrication, and Future Perspectives in Clean Energy Storage Devices
    Authors: S Sharma, P Chand, S Kaushik, K Samdhyan
    Journal: Eco-Friendly Supercapacitors: Design and Future Perspectives in Sustainable …
    Year: 2024
  • Title: Electrochemical performance of ZIF-67 as electrode material for energy storage in supercapacitor application
    Authors: S Kaushik, P Chand, S Sharma
    Conference: Proceedings of the Indian Conference on Carbon Materials: Book of Abstracts
    Year: 2023

Dr. Cedric Anthierens | Marine Robotics | Business Innovation Award

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Dr. Cedric Anthierens | Marine Robotics | Business Innovation Award

Dr. Cedric Anthierens, COSMER Lab, University of Toulon, France

Cédric Anthierens is an Associate Professor at the University of Toulon, where he heads the mechatronics and robotics department at the Seatech Engineering School. A graduate of INSA of Lyon in 1996, Cédric earned his PhD in microrobotics in 1999. His academic career spans two decades, during which he has focused on research in marine and submarine robotics. At the COSMER Lab, his work includes developing underwater robots, umbilical management systems, and cooperation between autonomous surface and underwater vehicles. Beyond academia, Cédric collaborates with industry leaders like AlcenAlseamar, managing fleets of autonomous gliders to further enhance maritime exploration technologies.

Professional Profile

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Summary of Suitability for the Research for Business Innovation Award 

Cédric Anthierens demonstrates strong qualifications for the Research for Business Innovation Award, with a unique blend of academic research and real-world business innovation. As an Associate Professor at the University of Toulon’s COSMER Lab, his work focuses on marine and submarine robotics, with a specific emphasis on autonomous surface and underwater vehicles. This field of research directly contributes to cutting-edge advancements in marine technology, offering practical applications in industries like defense, ocean exploration, and environmental monitoring.

 🎓  Education 

Cédric Anthierens holds a degree in Engineering from INSA Lyon, a prestigious French engineering school, which he completed in 1996. He pursued further studies in robotics, earning a PhD in microrobotics in 1999. His doctoral research focused on the intricacies of micromechanical systems, laying the foundation for his career in marine robotics. He further honed his expertise through various advanced research programs, specializing in underwater vehicle navigation and autonomous robotics. His academic background, a blend of theoretical and practical experience, has been instrumental in shaping the curriculum at the Seatech Engineering School, where he now leads the mechatronics and robotics department.

💼   Experience 

Cédric Anthierens has extensive experience in the field of robotics, particularly in marine and underwater systems. Since joining the University of Toulon in 2014, he has served as the head of the mechatronics and robotics department at Seatech Engineering School. His research focuses on creating autonomous systems for both surface and underwater vehicles, and he has collaborated with leading organizations such as AlcenAlseamar and Sherpa Engineering. Through projects like fleet management of autonomous underwater gliders and advanced algorithms for robotic path planning, he has contributed significantly to the field of marine robotics. His academic and industrial experience positions him as a key figure in advancing underwater robotic technologies.

🏅  Awards and Honors 

Cédric Anthierens has received numerous accolades for his contributions to marine and robotics research. His work on developing underwater robotic systems has garnered recognition from both academic and industrial organizations. He has been honored for his innovations in autonomous vehicle navigation and path planning, including awards for excellence in innovation. His leadership in managing industry collaborations, particularly with AlcenAlseamar, has also been acknowledged, as he played a pivotal role in advancing the capabilities of autonomous underwater gliders. As an academic leader, Cédric has received institutional awards for his contributions to the Seatech Engineering School, where he has successfully led the mechatronics and robotics department.

🌍  Research Focus 

Cédric Anthierens’ research primarily revolves around the development of autonomous marine and submarine robotic systems. His focus is on improving the intelligence and effectiveness of glider fleets, advancing algorithms for underwater vehicle navigation, and optimizing robotic path planning. He has worked extensively on cooperative systems between autonomous surface vehicles (USVs) and underwater vehicles (ROVs), particularly addressing umbilical management between these systems. At the COSMER Lab, his research has led to the creation of simulation tools that enhance the planning and execution of underwater missions, enabling robots to perform tasks more efficiently. His collaboration with industrial partners has also contributed to practical advancements in maritime robotics.

📖 Sustainable SolutionsPublications Top Notes

  •  Automated Deployment of an Underwater Tether Equipped with a Compliant Buoy–Ballast System for Remotely Operated Vehicle Intervention
  •  A New Flex-Sensor-Based Umbilical-Length Management System for Underwater Robots
  •  A Simulator of Underwater Glider Missions for Path Planning
  •  Towards Active Self-Management of Umbilical Linking ROV and USV for Safer Submarine Missions
  •  Sensory Navigation Guide for Visually Impaired Sea Kayakers

Assoc.Prof.Dr.Sumrit Mopoung | Inorganic chemistry | Best Paper Award

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Assoc.Prof.Dr.Sumrit Mopoung | Inorganic chemistry | Best Paper Award

Assoc.Prof.Dr.Sumrit Mopoung, Facuity of Science, Naresuan University, Thailand

Assoc. Prof. Dr. Sumrit Mopoung is a distinguished lecturer in Inorganic Chemistry at the Department of Chemistry, Naresuan University, Thailand. He holds a Ph.D. in Chemistry from Chiang Mai University and has an extensive background in agricultural sciences, having earned his B.S. in Agriculture and M.S. in Teaching Chemistry from the same institution. With a career spanning over two decades, Dr. Mopoung is recognized for his innovative research on charcoal and activated carbon production from agricultural waste, particularly banana peels. He has led numerous research projects aimed at sustainable waste management and the development of eco-friendly technologies. Dr. Mopoung has actively contributed to various academic publications and international conferences, establishing himself as a thought leader in his field. His commitment to education and research excellence continues to inspire students and colleagues alike.

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Evaluation of Assoc. Prof. Dr. Sumrit Mopoung for the Research for Best Paper Award

Summary of Suitability for Award

Assoc. Prof. Dr. Sumrit Mopoung has demonstrated exceptional contributions to the field of Inorganic Chemistry, particularly in the area of environmental sustainability through the innovative utilization of agricultural waste. His extensive educational background, including a B.S. in Agriculture, an M.S. in Teaching Chemistry, and a Ph.D. in Chemistry, lays a strong foundation for his research endeavors. Dr. Mopoung’s research primarily focuses on the production of charcoal and activated carbon from waste products, significantly highlighting the potential for waste management and value-added utilization.

🎓 Education 

Assoc. Prof. Dr. Sumrit Mopoung’s academic journey began with a Bachelor of Science in Agriculture (Animal Husbandry) from Chiang Mai University in 1982. Driven by a passion for chemistry and education, he pursued a Master of Science in Teaching Chemistry, which he completed in 1989 at the same institution. His thirst for knowledge and desire to contribute to the field of chemistry led him to undertake a doctoral program, earning his Ph.D. in Chemistry from Chiang Mai University in 2004. This educational foundation equipped Dr. Mopoung with a comprehensive understanding of both agricultural sciences and chemistry, allowing him to blend these disciplines in his research. His academic achievements are complemented by his role as a lecturer, where he imparts knowledge and fosters a new generation of scientists, emphasizing the importance of sustainability and innovation in chemistry.

 💼 Experience 

Assoc. Prof. Dr. Sumrit Mopoung has accumulated extensive experience in both academia and research throughout his career. He has been a faculty member at the Department of Chemistry, Naresuan University, where he has taught various courses in inorganic chemistry and conducted research focused on sustainable waste management. Over the years, Dr. Mopoung has led numerous significant research projects, such as the production of charcoal and activated carbon from agricultural waste and biogas production from banana peels. His expertise in environmental chemistry has positioned him as a key figure in promoting eco-friendly practices within the agricultural sector. Additionally, Dr. Mopoung has collaborated with various researchers, contributing to publications in esteemed journals and presenting his findings at international conferences. His dedication to advancing knowledge in chemistry and promoting research excellence has made a lasting impact on both students and the scientific community.

 🏅Awards and Honors 

Assoc. Prof. Dr. Sumrit Mopoung has been recognized for his significant contributions to the fields of chemistry and sustainable agricultural practices. His research on activated carbon and charcoal production from agricultural waste has garnered acclaim, leading to invitations to present at international conferences, including PACCON2002 and PACCON2008, where he showcased his innovative findings. Additionally, Dr. Mopoung’s collaborative projects have received funding and support from various academic and governmental institutions, emphasizing his role in advancing eco-friendly technologies. His dedication to teaching and mentoring students has also earned him recognition within the university community, where he is known for inspiring the next generation of chemists. Dr. Mopoung’s work in sustainable waste management and renewable energy continues to receive acknowledgment, reflecting his commitment to making a positive impact on both the scientific community and society at large.

🌍 Research Focus

Assoc. Prof. Dr. Sumrit Mopoung’s research primarily concentrates on the sustainable utilization of agricultural waste, with a specific emphasis on the production of charcoal and activated carbon from materials such as banana peels. His innovative approach to waste management seeks to convert by-products into valuable resources, addressing environmental concerns while promoting sustainability. Dr. Mopoung’s projects include biogas production from banana peeling and the development of activated carbon for various applications, such as water filtration and hydrogen storage. His work on immobilizing arsenic in contaminated soil demonstrates his commitment to environmental remediation. Furthermore, he explores the chemical composition of agricultural waste to enhance value-added utilization and promote organic farming practices. By integrating renewable energy concepts into his research, Dr. Mopoung aims to foster advancements in sustainable technologies that can significantly contribute to environmental preservation and resource efficiency.

 📖 pubilcation Top Notes

Characterization and properties of activated carbon prepared from tamarind seeds by KOH activation for Fe(III) adsorption from aqueous solution
Surface image of charcoal and activated charcoal from banana peel
 Activated carbon preparation from eucalyptus wood chips using continuous carbonization–steam activation process in a batch intermittent rotary kiln
 Characterization and evaluation of charcoal briquettes using banana peel and banana bunch waste for household heating
Chemical and surface properties of longan seed activated charcoal