Chinmoy Das | Energy materials | Best Researcher Award

Assist Prof Dr. Chinmoy Das | Energy materials | Best Researcher Award

SRM University-AP, Andhra Pradesh, India

Author Profile

Early Academic Pursuits

Dr. Chinmoy Das embarked on his academic journey at the prestigious Indian Institute of Technology Bombay (IIT Bombay), where he pursued a Ph.D. in Inorganic Chemistry. Under the mentorship of Prof. Maheswaran Shanmugam, he developed a solid foundation in the principles of chemistry, particularly focusing on the synthesis of functional materials. His time at IIT Bombay (2012-2017) was marked by rigorous research and experimentation, leading to significant advancements in understanding the interactions and properties of inorganic compounds. This period laid the groundwork for his future endeavors in both academic and research settings, fostering a passion for experimental chemistry that continues to drive his work today. 🎓

Professional Endeavors

Following the completion of his doctoral studies, Dr. Das took on various roles that enriched his professional portfolio. He began as a Research Associate at IIT Bombay, where he contributed to several projects, expanding his expertise in material synthesis and characterization. His journey continued internationally, with impactful positions as a Postdoctoral Researcher at Technische Universität Dortmund in Germany, and later at the AIST-Kyoto University Chemical Energy Materials Open Innovation Laboratory in Japan. During these formative years (2018-2023), Dr. Das honed his skills in developing novel materials aimed at solving critical energy and environmental challenges. In September 2023, he accepted a role as an Assistant Professor in the Department of Chemistry at SRM University-AP in Amaravati, India, marking a return to academia with a renewed focus on research and teaching. 🌍

Contributions and Research Focus

Dr. Das’s research is characterized by a commitment to sustainability and innovation. His motivation to synthesize new functional materials aims at addressing global challenges, particularly in energy production and water purification. One of his key areas of focus is the synthesis of methanol and ethanol from atmospheric CO2, a groundbreaking endeavor that aligns with eco-friendly practices and the principles of green chemistry. By leveraging innovative chemical processes, Dr. Das strives to contribute to the development of sustainable fuel alternatives that can significantly reduce greenhouse gas emissions.In addition to fuel production, Dr. Das is passionate about harnessing solar energy to produce clean drinkable water from atmospheric moisture. This research not only addresses the pressing issue of water scarcity but also promotes the utilization of renewable energy sources in a sustainable manner. Furthermore, he is exploring the development of biodegradable solid-state electrolytes aimed at creating low-cost Li/Na-ion batteries, which are crucial for the advancement of energy storage technologies. 🔋

Accolades and Recognition

Dr. Das’s contributions to the field of chemistry have not gone unnoticed. His research has been published in several esteemed journals, garnering citations and recognition within the scientific community. He has received awards and grants that acknowledge his innovative work, reflecting his commitment to advancing both academic knowledge and practical applications. His collaborative work during his postdoctoral tenure has also positioned him as a respected figure in international research circles, further enhancing his academic reputation. 🏆

Impact and Influence

Through his teaching and mentorship at SRM University-AP, Dr. Das is shaping the next generation of chemists. He inspires students to pursue their passions while instilling the importance of sustainability in scientific research. His professional journey serves as a beacon for aspiring scientists, illustrating the potential impact of dedicated research on real-world issues. By focusing on sustainable practices, he aims to influence not just academic peers but also industry stakeholders, advocating for greener alternatives in energy and materials science. 🌱

Legacy and Future Contributions

As Dr. Chinmoy Das continues to explore innovative avenues in his research, his legacy will likely reflect a profound commitment to environmental sustainability and technological advancement. He envisions a future where his contributions can lead to significant breakthroughs in clean energy and water purification technologies. By focusing on eco-friendly solutions, Dr. Das aspires to leave a lasting impact on both academia and industry, fostering a culture of innovation that prioritizes ecological balance.In the coming years, Dr. Das aims to expand his research collaborations internationally, seeking to engage with other scientists and institutions that share his vision. His goal is not only to advance his own research agenda but also to contribute to broader discussions on sustainability within the global scientific community. Through these efforts, he hopes to solidify his role as a leader in the field of chemistry, guiding future generations toward a more sustainable and environmentally conscious approach to science. 🌏In conclusion, Dr. Chinmoy Das exemplifies the integration of academic rigor with a commitment to sustainable innovation. His journey from IIT Bombay to his current position as an Assistant Professor highlights his dedication to addressing some of the most pressing challenges of our time through chemistry.

Citations

A total of 968 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations         968
  • h-index           33
  • i10-index        16

Notable Publications 

  • Title: Mechanochemically-induced glass formation from two-dimensional hybrid organic-inorganic perovskites
    Authors: Ye, C., Lampronti, G.I., McHugh, L.N., Dutton, S.E., Bennett, T.D.
    Journal: Chemical Science, 2024.
  • Title: Insights Into the Mechanochemical Glass Formation of Zeolitic Imidazolate Frameworks
    Authors: Xue, W.-L., Das, C., Weiß, J.-B., Henke, S.
    Journal: Angewandte Chemie – International Edition, 2024.
  • Title: Breathing porous liquids based on responsive metal-organic framework particles
    Authors: Koutsianos, A., Pallach, R., Frentzel-Beyme, L., Sternemann, C., Henke, S.
    Journal: Nature Communications, 2023.
  • Title: Creating glassy states of dicarboxylate-bridged coordination polymers
    Authors: Fan, Z., Wei, Y.-S., Das, C., Ohara, K., Horike, S.
    Journal: Chemical Communications, 2023.
  • Title: A robust low coordinate Co(II) catalyst for efficient conversion of CO2 into methanol under mild conditions
    Authors: Sharma, V., Rasamsetty, A., Das, C., Borah, D., Shanmugam, M.
    Journal: Chemical Engineering Journal, 2023.

Kaushik Ghosh | Supercapacitor | Best Researcher Award

Prof Dr. Kaushik Ghosh - Supercapacitor - Best Researcher Award 🏆 

Institute of Nano Science & Technology, DST - India

Professional Profiles

Early Academic Pursuits

His journey in the realm of scientific exploration began with a Bachelor of Science in Chemistry from Calcutta University, where he laid the foundation for his future academic pursuits. Building upon his passion for scientific inquiry, he pursued a Master of Science in Chemistry from the same institution, delving deeper into the intricacies of chemical principles. Driven by a thirst for knowledge and a desire to explore interdisciplinary domains, he embarked on a doctoral journey at Meijo University, Japan, specializing in Information & Materials Engineering. His doctoral research laid the groundwork for his subsequent contributions to the field of nanoscience and technology.

Professional Endeavors

Armed with a diverse academic background, he ventured into the world of academia and research, assuming various roles that have shaped his illustrious career. He served as a Research Fellow at Nanyang Technological University, Singapore, where he immersed himself in cutting-edge research projects focused on renewable energy and nanomaterials. Subsequently, he joined the Institute of Nano Science & Technology (INST) in Mohali, India, where he has held several prestigious positions, including Scientist-D, Assistant Professor, and currently, as a distinguished Scientist-F and Professor.

Contributions and Research Focus in Supercapacitor

His research interests encompass a broad spectrum of interdisciplinary fields, including renewable energy storage, nanomaterials synthesis, and electrochemical processes. His pioneering work spans diverse areas such as silicon nanowires/graphene heterostructures for high-performance photovoltaics, electrochemical water splitting, and graphene-based nanoelectromechanical systems (NEMS) for gas sensing. Notably, his research on carbon-based heterostructures for hybrid supercapacitors has the potential to revolutionize energy storage technologies, offering solutions for high power density and rapid charging.

Accolades and Recognition

His groundbreaking contributions to the field have earned him international acclaim, as evidenced by prestigious awards and accolades. He was honored with the International Researcher Award by Meijo University, Japan, in 2024, recognizing his exemplary research endeavors. Additionally, he has secured significant research grants from esteemed organizations such as DST-JSPS and DST-Nanomission, highlighting the impact of his research on addressing critical societal and environmental challenges.

Impact and Influence

His research has not only advanced scientific knowledge but also paved the way for practical applications with real-world implications. His expertise in nanomaterials synthesis and renewable energy storage has the potential to revolutionize industries ranging from electronics to environmental sustainability. Moreover, his role as an educator and mentor has inspired numerous students and researchers to pursue careers in nanoscience and technology, thereby fostering the next generation of scientific leaders.

Legacy and Future Contributions

As he continues to push the boundaries of scientific exploration, his legacy as a visionary researcher and educator continues to grow. With ongoing research initiatives aimed at addressing pressing global challenges, such as clean energy generation and environmental sustainability, he remains at the forefront of scientific innovation. His unwavering commitment to excellence and his relentless pursuit of knowledge serve as a testament to his enduring legacy in the field of nanoscience and technology.

Citations

  • Citations              2328
  • h-index                 29
  • i10-index              50

Notable Publications

Neetu Jha | Fuel cell | Best Researcher Award

Assist Prof Dr. Neetu Jha - Fuel cell - Best Researcher Award 🏆

Institute of Chemical Technology (ICT) - India

Professional Profiles

Early Academic Pursuits

Her academic journey commenced with a strong foundation in physics, chemistry, and mathematics at Calcutta University, where she pursued her Bachelor of Science degree. Subsequently, she furthered her studies by obtaining a Master's degree in Physics from Banaras Hindu University. Driven by her passion for research and innovation, Neetu pursued a Ph.D. at IIT Madras under the supervision of Prof. S. Ramaprabhu, focusing on the development of carbon-based materials and their applications in various fields, including direct methanol fuel cells (DMFCs), nanofluids, and biosensors. These formative years laid the groundwork for her future endeavors in academia and research.

Professional Endeavors

Her professional journey has been marked by a diverse range of experiences, spanning teaching, research, and postdoctoral appointments. Following the completion of her Ph.D., she embarked on a postdoctoral research position at the University of California, Riverside, under the guidance of Prof. Robert Haddon, where she further honed her expertise in advanced materials and electrochemistry. Subsequently, Neetu joined the Institute of Chemical Technology, Mumbai, where she currently serves as a UGC-FRP Assistant Professor in the Department of Physics. Her role encompasses teaching undergraduate and postgraduate courses, as well as supervising research projects in various domains of physics.

Contributions and Research Focus in Fuel cell

Her research interests span a wide array of topics in the field of materials science and renewable energy. Her research primarily focuses on solar thermal materials, photothermal materials, fuel cell electrocatalysts, energy storage devices, supercapacitors, water splitting, zinc ion batteries, and electrocatalysis. Through her pioneering work, she aims to develop novel materials and technologies that address pressing challenges in energy conversion and storage, with a particular emphasis on enhancing the efficiency and sustainability of fuel cells. Neetu's contributions to the development of carbon-based materials for DMFCs and other applications have garnered recognition within the scientific community.

Accolades and Recognition

Her scholarly contributions have earned her recognition and accolades from peers and mentors alike. Her research publications in reputed journals and her active involvement in academic and research activities have contributed to her standing as a respected researcher in her field. Additionally, her role as a postdoctoral researcher at the University of California, Riverside, provided her with valuable exposure to cutting-edge research methodologies and international collaborations, further enhancing her research credentials.

Impact and Influence

Her research has the potential to have a significant impact on the fields of materials science and renewable energy. By developing innovative materials and technologies for fuel cells and other energy conversion devices, she contributes to advancing the global transition towards sustainable energy sources. Furthermore, her work serves as a catalyst for interdisciplinary collaborations and inspires future generations of researchers to explore novel solutions to the world's energy challenges.

Legacy and Future Contributions

As she continues her academic and research journey, her legacy is poised to endure through her groundbreaking contributions to the field of materials science and renewable energy. Through her innovative research, mentorship of students, and engagement with the scientific community, she aims to leave a lasting impact on the development of sustainable energy technologies. Her future contributions hold the potential to shape the trajectory of fuel cell research and accelerate the transition towards a more sustainable and carbon-neutral future.

Citations

  • Citations               2540
  • h-index                  27
  • i10-index               43

Notable Publications

 

Venkateswarlu Gundu | Electrical and Electronics Engineering | Best Researcher Award

Assist Prof Dr. Venkateswarlu Gundu - Electrical and Electronics Engineering - Best Researcher Award 🏆

Koneru Lakshmaiah Education Foundation - India

Professional Profiles

Early Academic Pursuits

He embarked on his academic journey with a profound passion for Electrical and Electronics Engineering (EEE). His curiosity and dedication led him to pursue a Doctor of Philosophy degree from the esteemed National Institute of Technology, Thiruchirappalli (NIT, Trichy), specializing in Artificial Intelligence. During his tenure as a full-time research scholar, Venkateswarlu demonstrated exceptional prowess in understanding complex systems, particularly in the realm of smart grids.

Professional Endeavors

As an Assistant Professor specializing in AI, Data Science, and Electrical and Electronics Engineering branches, he has made significant contributions to academia and research. With over four years of hands-on experience, he has honed his skills in Python, TensorFlow, Keras, Numpy, Pandas, OriginPro, Matplotlib, and Matlab. His expertise extends to machine learning, deep learning, natural language processing, and demand response programs, among others. He has been instrumental in shaping the minds of future engineers and researchers, imparting knowledge in subjects such as Python, Operating Systems, Computer Organization and Architecture, Power Systems, Digital Electronics, and Measurements and Machines.

Contributions and Research Focus in Electrical and Electronics Engineering

His research endeavors primarily focus on time series load and price forecasting using deep recurrent neural networks (RNN). He has published six papers in SCI-indexed journals, two papers in Scopus-indexed journals, and presented his work at an international conference. His research has been well-received in academic circles, with publications appearing in prestigious platforms such as IEEE, Springer, and Taylor and Francis. His contributions have significantly advanced the understanding and application of AI and data science in the field of Electrical and Electronics Engineering, particularly in smart grid technologies.

Accolades and Recognition

His contributions to academia and research have earned him recognition and accolades from peers and institutions alike. His publications in high-impact journals and conferences attest to the quality and significance of his work. Additionally, his expertise in Python, TensorFlow, and other technical skills has been acknowledged through certifications such as Microsoft Assure and NPTEL-Python. His dedication and commitment to advancing the frontiers of knowledge in Electrical and Electronics Engineering have solidified his reputation as a respected academic and researcher.

Impact and Influence

His research and teaching endeavors have left a lasting impact on the field of Electrical and Electronics Engineering and beyond. His innovative approaches to time series forecasting using RNNs have paved the way for improved efficiency and reliability in smart grid operations. Moreover, his mentorship and guidance have inspired numerous students to pursue careers in AI, data science, and EEE, further amplifying his influence on the next generation of engineers and researchers.

Legacy and Future Contributions

Looking ahead, he envisions expanding his research horizons to encompass areas such as natural language processing, text analysis, and data science. He remains committed to advancing the fields of machine learning and deep learning, with a particular emphasis on load, price, and solar data analysis. His legacy as an educator, researcher, and thought leader in Electrical and Electronics Engineering will continue to shape the future of the discipline, leaving a lasting imprint on academia and industry.

Citations

  • Citations               96
  • h-index                  4
  • i10-index               2

Notable Publications

 

Hemavathi B | Organic Semiconductors for Energy | Best Researcher Award

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