Dr. Suchit Sarin | Biopharmaceutics | Best Researcher Award

Postdoctoral Scholar  at University of Nebraska Lincoln | United States

Dr. Suchit Sarin is a materials engineering researcher with expertise in advanced materials characterization, ultrafast laser processing, and nanostructure synthesis. He earned his Ph.D. in Materials Engineering from the University of Nebraska–Lincoln, where he explored micro- and nanoscale structure formation in metals under ultrafast laser irradiation. His research integrates experimental techniques like TEM, SEM/FIB, and STEM-EDX with computational modeling to advance material properties and performance. With extensive experience in materials science, metallurgical engineering, and laser-material interactions, Dr. Sarin has contributed to multiple academic projects, industrial collaborations, and teaching roles, building a strong foundation for impactful scientific innovation.

Publication Profile 

Google Scholar

Education 

Dr. Suchit Sarin holds a Ph.D. in Materials Engineering from the University of Nebraska–Lincoln with a focus on ultrafast laser processing of metals. He completed his M.S. by Research and M.Tech. in Metallurgical Engineering, Materials Science, and Steel Technology at the Indian Institute of Technology Bombay, specializing in advanced steels and electron beam processing. His B.Tech. in Materials Science and Metallurgical Engineering was from the University Institute of Engineering and Technology, Kanpur. His academic journey combined experimental and computational approaches, emphasizing laser-material interactions, nanostructure formation, and microstructural evolution, equipping him with multidisciplinary skills in materials characterization and process optimization.

Experience 

Dr. Suchit Sarin served as Instrument Manager for the FEI Helios NanoLab 660 SEM/FIB at the University of Nebraska–Lincoln, training 50+ users and managing advanced characterization workflows. As a Research Assistant, he operated high-resolution TEM and STEM for materials analysis, collaborating with industry partners on diverse materials. He has been a Teaching Assistant for undergraduate labs in materials science, developing instructional resources during COVID-19 for remote learning. Earlier roles include Research Engineer positions at IIT Bombay and Defence Metallurgical Research Laboratory, where he worked on coatings, electron beam melting, and lightweight steel development, gaining extensive research and teaching expertise.

Awards and Honors 

Dr. Suchit Sarin has received recognition for academic excellence throughout his career, including a high GPA during his Ph.D. and scholarships during postgraduate studies at IIT Bombay. He earned research fellowships for his work at premier institutions, contributing to advanced projects on ultrafast laser processing, lightweight steels, and coatings for high-temperature alloys. His collaborative work with industrial and research laboratories further enhanced his research profile, leading to multiple presentations and publications in reputed journals. His training and teaching contributions during COVID-19 also earned appreciation for maintaining academic continuity in laboratory education through innovative instructional resources and technical support.

Research Focus 

Dr. Suchit Sarin research focuses on ultrafast laser-material interactions, nanostructure formation, and advanced materials characterization using TEM, SEM/FIB, and STEM-EDX. His Ph.D. explored self-organized micro/nano-structure growth on metals under femtosecond laser irradiation, elucidating phase explosion, spinodal decomposition, and surface morphology evolution. He has worked extensively on lightweight high-strength steels, electron beam melting of refractory alloys, and high-temperature protective coatings. Integrating experimental techniques with computational modeling, his research advances knowledge in materials synthesis, process optimization, and functional surface engineering for applications in energy, aerospace, and manufacturing industries, driving innovation in next-generation materials design and processing technologies.

Publication Top Notes

Lightweight, thermally conductive liquid metal elastomer composite with independently controllable thermal conductivity and density

Pool boiling heat transfer enhancement using femtosecond laser surface processed aluminum in saturated PF-5060

Microstructure and oxidation behaviour of Fe–Cr–silicide coating on a niobium alloy

Room Temperature Magnetic Skyrmions in Gradient-Composition Engineered CoPt Single Layers

Large refrigerant capacity in superparamagnetic iron nanoparticles embedded in a thin film matrix

Augmented pool boiling heat transfer of PF-5060 using Femtosecond Laser Surface Processed Aluminum: Effect of laser fluence

Flow Boiling Heat Transfer Enhancement Using Novel Dual-Channel Design with Femtosecond Laser Surface Processed Stainless Steel Surfaces

Plasma‐Assisted Synthesis of Methanol Through Hydrogenation of Carbon Dioxide With Non‐Noble Metal Mixed Oxide Catalysts

Pool Boiling Performance of Surfaces Produced by Femtosecond Laser Surface Processing and Copper Hydroxide Nanoneedle Growth

Functionalization of copper for enhanced electrocatalytic reduction of carbon dioxide via ultrashort pulse laser surface processing

Effect of Substrate on Spin‐Wave Propagation Properties in Ferrimagnetic Thulium Iron Garnet Thin Films

Large refrigerant capacity in rare earth free nanostructures of matrix embedded Fe nanoparticles

Growth mechanisms of self-organized micro-and nano-scale structures around ultrashort pulse laser ablation craters on copper

Conclusion

Dr. Suchit Sarin academic excellence, extensive research experience, and contributions to materials science and engineering make him a strong candidate for the Best Researcher Award. His integration of experimental characterization, computational modeling, and industrial collaboration demonstrates a holistic approach to problem-solving in advanced materials research. With strategic improvements in citation impact, interdisciplinary outreach, and research commercialization, Dr. Sarin is well-positioned to emerge as a leading figure in materials engineering and nanotechnology research, aligning with the vision and criteria of the award.