Mr. Pinaki Shankar Saha Prithu - Water Electrolysis - Young Scientist Award

University of Science and Technology of China - China

Author Profile

🎓 Early academic pursuits

Pinaki Shankar Saha Prithu began his educational journey with outstanding performances at dhaka residential model college, achieving perfect gpa scores in both his secondary and higher secondary school certificates (2009–2013). he pursued his undergraduate degree in textile engineering from the bangladesh university of textiles, where he laid the groundwork for his later transition into advanced material sciences. recognizing his passion for research, he pursued his m.sc. in material science and engineering from chongqing university, china, graduating with a cgpa of 3.56/4.00. currently, he is engaged in a ph.d. in material science and engineering at the university of science and technology of china, part of the prestigious chinese academy of sciences.

💼 Professional endeavors

Pinaki's career reflects a progressive shift from the textile industry to the high-impact field of material science. he initially served as a management trainee officer at victory city international holdings ltd. in guangzhou, where he gained industrial insights into textile manufacturing. his subsequent roles at labib dyeing mills and dr. petry gmbh involved applied research, process Water Electrolysis optimization, and quality assurance. this industrial grounding prepared him for his academic research roles, including his tenure as a graduate research assistant at chongqing university and currently at the university of science and technology of china, where he delves into nanomaterials and power electronics-driven catalytic technologies.

🔬 Contributions and research focus

Pinaki has made significant contributions in the field of catalysis, nanostructured materials, and energy storage, with a special emphasis on material characterization, carbon nanotubes, and mxene-based catalysts. his master’s thesis focused on the preparation of ru-co and ru-ga nano (hydr)oxide catalysts for water electrolysis. he has authored impactful Water Electrolysis research papers, including a high-profile publication in the international journal of hydrogen energy (2025), detailing the performance of ru-conc@cnt bifunctional catalysts for water splitting. his current ph.d. research expands on high entropy alloy catalysts for her, oer, aor, orr, and hor, integrating principles of power electronics to enhance electrochemical efficiency.

🌍 Impact and influence

Pinaki’s interdisciplinary expertise bridges textile engineering and advanced material science, making him a unique contributor in his field. his research on bifunctional nanohybrid catalysts addresses pressing global challenges related to renewable energy and sustainable chemical production. he also co-authored a study on textile-based soft robotics for differently-abled Water Electrolysis individuals, highlighting his commitment to inclusive innovation. his evolving work continues to influence domains where power electronics, electrocatalysis, and nanotechnology intersect, further cementing his growing reputation.

📈 Academic citations

Pinaki’s publications are gaining scholarly recognition, particularly his work published in top-tier journals such as the international journal of hydrogen energy and the journal of material science. his research on ru-ga nc@mxene catalysts and soft robotic textiles has been cited in works focused on clean energy and biomedical applications. his google scholar and researchgate profiles reflect a steadily increasing academic footprint, drawing attention from global researchers in nanomaterials and power electronics.

🔮 Legacy and future contributions

Pinaki’s trajectory illustrates a vision rooted in scientific innovation and interdisciplinary synergy. his ongoing ph.d. work is expected to generate transformative knowledge in the field of high-entropy alloy electrocatalysts. looking ahead, he aims to lead research that integrates power electronics with advanced catalytic materials to develop scalable, low-energy-demand systems for global clean energy applications. his legacy is forming around pioneering contributions to sustainable technologies, educational mentorship, and industrial-academic collaboration.

Notable Publications

Title: High-performance bifunctional Ru–CoNC@CNT catalyst for efficient water splitting
Author(s): Pinaki Shankar Saha Prithu, Jinzhou Li, Chaowen Tan, Chengzhen Hou, Xuewei Lv, Jie Dang
Journal: International Journal of Hydrogen Energy
Title: Review: Textile-based soft robotics for physically challenged individuals
Author(s): Akhiri Zannat, Mohammad Nasir Uddin, Sharif Tasnim Mahmud, Pinaki Shankar Saha Prithu, Rony Mia
Journal: Journal of Materials Science

Early academic pursuits 🎓

Venkata prasad s.v.u. started his academic journey with a passion for chemistry and technology, completing a postgraduate diploma in computer applications (pgdca). he further honed his expertise through advanced studies in analytical chemistry and materials science, gaining proficiency in specialized techniques such as electrochemical analysis and spectroscopy. his academic foundation laid the groundwork for a dynamic career in research and education, blending his knowledge of chemistry with cutting-edge technological applications.

Professional endeavors 🏛️

Venkata prasad's professional career spans various prestigious institutions, with significant contributions as a senior researcher in the department of chemistry at soonchunhyang university, south korea. here, he worked on innovative projects focused on the development of electrochemical sensors using nano-hybrid electrodes. currently, he serves as an assistant professor in the department of chemistry at presidency university, bengaluru, where he continues to inspire and guide the next generation of scientists. his professional path reflects a commitment to both research excellence and academic mentorship.

Contributions and research focus 🔬

Venkata prasad’s research is centered on the development of electrochemical sensors, particularly using nano-hybrid materials. his work involves creating sensors capable of detecting biomarkers, contributing to advancements in medical diagnostics and environmental monitoring. his expertise in utilizing sophisticated techniques such as raman spectroscopy, ftir, and x-ray diffractometry enables him to innovate at the Electrochemistry forefront of material science. this research has significant real-world applications, particularly in health monitoring and environmental science.

Accolades and recognition 🏅

throughout his career, venkata prasad has gained recognition for his contributions to chemistry and sensor technology. his role as a senior ElectrochemistryElectrochemistry researcher under the guidance of professor kim tae hyun at soonchunhyang university further cemented his reputation as a skilled researcher in electrochemical applications. his innovative approaches to nano-hybrid sensors have not only contributed to the academic field but also earned him a respected position in the international research community.

Impact and influence 🌍

Venkata prasad’s research has had a notable impact on the fields of biomarker detection and electrochemical sensor development. his work contributes to the growing demand for rapid, accurate, and cost-effective diagnostic tools, potentially revolutionizing medical and environmental testing. his interdisciplinary approach, merging chemistry with computational applications, has paved the way for more advanced and efficient Electrochemistry methods in sensor technology, influencing future research directions in both chemistry and materials science.

Legacy and future contributions 🔮

Venkata prasad’s legacy in the field of chemistry and sensor technology is defined by his innovative contributions and dedication to education. as an academic and researcher, he is committed to advancing knowledge and fostering the growth of future scientists. his ongoing research and teaching endeavors are likely to produce further breakthroughs in sensor development and biomarker detection, leaving a lasting impact on both the scientific community and practical applications in healthcare and environmental monitoring.