Dr. Buddha Deka Boruah - Energy Storage - Best Researcher Award

University College London (UCL) - United Kingdom

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Buddha Deka Boruah's academic journey began with a Bachelor's degree in Physics from Cotton College, Assam, followed by a Master's degree in Physics from the Indian Institute of Technology Guwahati (IITG). His research during this period delved into the structural and optoelectronic properties of hydrogenated amorphous silicon thin films on flexible substrates, under the guidance of Prof. Pratima Agarwal. His pursuit of knowledge continued with a Ph.D. at the Indian Institute of Science (IISc) Bangalore, where he explored the coupled optical and electrochemical properties of ZnCo2O4 for radiation-sensitive supercapacitors, supervised by Prof. Abha Misra.

PROFESSIONAL ENDEAVORS

Boruah's professional journey spans various roles and institutions, starting as a Research Associate at the Institute for Manufacturing (IfM), University of Cambridge, under the supervision of Prof. Michael De Volder. He continued his research as a Newton International Postdoctoral Fellow, focusing on aqueous energy storage systems and photo-rechargeable energy storage systems. Currently, he serves as an Assistant Professor (Lecturer in Energy Storage) at the Institute for Materials Discovery (IMD), University College London (UCL), where he established his research group in 2022.

CONTRIBUTIONS AND RESEARCH FOCUS ON ENERGY STORAGE

Boruah's research contributions center around developing environmentally safe and cost-effective aqueous electrochemical energy storage systems, with a specific focus on zinc-ion-based systems. He explores various aspects, including V- and Mn-based oxide cathode materials, ceramic-based materials to suppress zinc dendrite growth, and in situ/operando measurements to analyze charge storage characteristics/kinetics. His research extends to understanding light-matter interaction in energy storage materials and utilizing optical energy to accelerate zinc-ion charge storage kinetics.

IMPACT AND INFLUENCE

Boruah's work has garnered recognition, including the Royal Society-Newton International Fellowships Award and the ACS Publications Peer Reviewer Certificate of Recognition & Appreciation. His contributions have implications for advancing energy storage technologies, addressing environmental concerns, and facilitating the transition towards sustainable energy solutions.

ACADEMIC CITATIONS

Boruah's research has been cited extensively, evident from awards such as the India 2018 Top Cited Author Award from IOP Publishing. His publications contribute to the scientific community's understanding of energy storage materials and their applications, influencing future research directions in the field.

LEGACY AND FUTURE CONTRIBUTIONS

As an emerging leader in the field of energy storage, Boruah's legacy lies in his innovative research endeavors and commitment to sustainable energy solutions. His future contributions are poised to further advance the development of aqueous electrochemical energy storage systems, paving the way for practical implementation and addressing global energy challenges.

NOTABLE PUBLICATIONS

Interrogating the Light-Induced Charging Mechanism in Li-Ion Batteries Using Operando 2023(3)

Porous Carbon Coated on Cadmium Sulfide-Decorated Zinc Oxide Nanorod Photocathodes 2023(6)

Photo-enhanced lithium-ion batteries using metal–organic frameworks 2023(3)

Photo-Enhanced Magnesium-Ion Capacitors Using Photoactive Electrodes 2022(10)

Visible-Light Augmented Lithium Storage Capacity in a Ruthenium(II) Photosensitizer 2022(2)

EARLY ACADEMIC PURSUITS

Na Chen embarked on her academic journey with a diverse educational background, including an MA, MBBCh, MPH, DPhil, among other qualifications. She pursued her academic interests at Beijing Normal University, specializing in environmental, energy, and public policy within the School of Government. Chen's early academic pursuits underscore her multidisciplinary approach and commitment to addressing China's governance and policy challenges.

PROFESSIONAL ENDEAVORS

With over 15 years of experience, Na Chen has established herself as a prominent figure at Beijing Normal University's School of Government. Her roles have involved teaching, research, and consultancy, with a focus on administrative management and public affairs governance. Chen's professional endeavors reflect her dedication to advancing knowledge and addressing real-world issues through academia and social practice.

CONTRIBUTIONS AND RESEARCH FOCUS ON CARBON ENERGY

Na Chen's research contributions encompass interdisciplinary studies on water management, land resources, environmental governance, and rural development. She has pioneered the dynamic system theory of coupled governance and explored topics such as policy diffusion and the process of public affairs governance. Chen's research has not only contributed to academic literature but has also influenced national policy formulation and implementation in China.

IMPACT AND INFLUENCE

Chen's impact extends beyond academia, with her research findings informing policy discussions and decision-making processes. Her work on scenario analysis of achieving zero-carbon energy and intelligent rural governance systems has garnered attention for its practical implications. Chen's active engagement in conferences, workshops, and collaborative activities reflects her influence in shaping discourse and driving positive change in public governance and policy domains.

ACADEMIC CITES

Na Chen's publications have been widely cited, reflecting the relevance and significance of her research in academic circles. Her articles, books, and conference papers have contributed to advancing knowledge in environmental management, public affairs governance, and policy analysis. Chen's citation record underscores her influence and recognition as a representative scholar in the field of public management.

LEGACY AND FUTURE CONTRIBUTIONS

As Na Chen continues her academic journey, her legacy is poised to endure through her ongoing commitment to research excellence, innovation, and societal impact. Her future contributions are expected to further shape discourse on public governance, policy reform, and sustainable development in China and beyond. Chen's multidisciplinary approach and dedication to addressing pressing societal challenges highlight her potential to drive meaningful change and leave a lasting legacy in academia and public service.