Dr. Soupitak pal - Electron Microscopy - Best Researcher Award

CSIR-CGCRI - India

Author profile

🧑‍🎓 Early academic pursuits

Soupitak pal embarked on his academic journey with a strong focus on materials engineering. his early academic achievements include completing his b.tech in ceramic technology at the government college of engineering and ceramic technology in kolkata, where he achieved a remarkable grade of 8.04/10. following this, he pursued his ph.d. at the prestigious indian institute of science (iisc), bangalore, where his research focused on the "microstructural development and mechanical properties of electroless ni-b coating." these early studies laid the groundwork for his expertise in advanced ceramics and materials engineering.

🏛️ Professional endeavors

currently working at the central glass and ceramic research institute (cgcri) in kolkata, soupitak has contributed significantly to the field of advanced ceramics and composites. his professional career spans research in radiation damage in materials, phase transformation, and material processing. his work, especially in spark plasma sintering and hot-pressing of composites, has had a profound impact on materials science. his involvement in the development of novel sialon ceramics and graphene/metal biomimetic composites further highlights his contributions to advanced material processing and characterization.

🔬 Contributions and research focus

Soupitak pal’s research interests lie in several specialized domains of material science. his key areas of focus include radiation damage in materials, ion and neutron irradiation, and the development of new radiation-tolerant alloys. in the field of phase transformation, he has made Electron Microscopy strides in understanding non-equilibrium systems and amorphous systems. his expertise extends to advanced characterization techniques such as atom probe tomography and transmission electron microscopy, which have been instrumental in his research on microstructure-property correlations in both metallic and ceramic systems.

🏅 Accolades and recognition

throughout his career, soupitak has garnered recognition for his extensive work in material engineering. his contributions to the development of advanced ceramic and composite materials, alongside his innovative approaches to ion and neutron irradiation studies, have earned him a Electron Microscopy respected position in the scientific community. his role in the cgcri’s advanced ceramics and composites division further emphasizes his standing as a leader in his field.

🌍 Impact and influence

Soupitak’s research has had a wide-reaching impact, particularly in the field of radiation damage and material processing. his contributions to the development of radiation-tolerant alloys and alternative fuel-cladding materials are of great significance to industries reliant on nuclear Electron Microscopy reactors. his pioneering work on spark plasma sintering and the thermomechanical characterization of composites has influenced both academia and industry, advancing the understanding of material behavior under extreme conditions.

🔗 Legacy and future contributions

Soupitak pal's legacy in materials science is already significant, and his future contributions promise to push the boundaries of material engineering even further. his ongoing work in interface engineering, particularly in meso-scale and nanostructured interfaces, will likely shape future advancements in the field. his focus on mechanical behavior at small length scales and innovative approaches to tribology and fracture mechanics continues to provide valuable insights for future generations of researchers.

Notable Publications

Correlative high-resolution imaging of hydrogen in Mg₂Ni hydrogen storage thin films 2023(6)

Dose and dose rate effects on the microstructural and mechanical stability of long-range 2023(2)

Quantification of hydrogen in nanostructured hydrogenated passivating contacts for silicon 2021(6)

On a new Ti-carbooxinitride redistribution driven microcrack healing mechanism in an annealed 2021(4)

Rare-earth- and aluminum-free, high strength dilute magnesium alloy for Biomedical Applications 2020(17)

EARLY ACADEMIC PURSUITS

Revati Nandan's academic journey commenced with a Bachelor of Science from Maharaj Laxman Sen Memorial College, Himachal Pradesh, India, followed by a Master's in Physics from Himachal Pradesh University, Summer-Hill Shimla, India. In 2018, Nandan joined Himachal Pradesh University as a PhD scholar, focusing on Electrocaloric and Energy Storage. Their research interests delve into sustainable energy solutions, particularly in the realm of lead-free ferroelectric ceramics.

PROFESSIONAL ENDEAVORS

Nandan's professional trajectory is marked by their dedication to interdisciplinary research bridging physics and engineering. As a PhD scholar, they are actively engaged in investigating the synthesis and properties of lead-free ferroelectric ceramics for sustainable energy storage and cooling systems. Additionally, Nandan has served as a teaching assistant for various courses, showcasing their commitment to academic excellence and knowledge dissemination.

CONTRIBUTIONS AND RESEARCH FOCUS ON CONDENSED MATTER PHYSICS

Nandan's research focuses on exploring the electrocaloric and energy storage properties of lead-free ferroelectric ceramics. Their contributions to this field have been significant, as evidenced by their publications in reputable scientific journals such as Elsevier,

Condensed Matter Physics

Taylor & Francis, and IOP. Through experimental work and theoretical analysis, Nandan strives to advance understanding in materials science and contribute to the development of sustainable energy solutions.

IMPACT AND INFLUENCE

Nandan's research has the potential to have a significant impact on the field of sustainable energy storage and materials science. By exploring novel materials and synthesizing lead-free ferroelectric ceramics, Nandan contributes to addressing pressing environmental challenges and advancing technological solutions for a greener future. Their work has the potential to influence policies, practices, and technological innovations in the energy sector.

ACADEMIC CITES

Nandan's research publications have garnered attention within the academic community, as reflected in the citations their work receives. Their contributions to understanding the electrocaloric and energy storage properties of lead-free ferroelectric ceramics have been cited by fellow researchers, indicating the relevance and significance of their research findings in advancing scientific knowledge.

LEGACY AND FUTURE CONTRIBUTIONS

Nandan's dedication to advancing knowledge in materials science and sustainable energy solutions underscores their commitment to leaving a lasting legacy in the field. Their future contributions are poised to shape policies, practices, and research agendas aimed at addressing global energy challenges and promoting sustainability. Through continued research, collaboration, and engagement, Nandan aims to contribute to the development of innovative materials and technologies for a more sustainable future.