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PRINCE SHARMA

Joint Ph.D. Candidate · Functional Materials and Microsystems Research Group School of Engineering, RMIT University, Melbourne, Australia Academy of scientific and innovative Research (AcSIR), India CSIR-National Physical Laboratory of India

https://researchid.co/princesharma
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44Scopus Publications
502Google Scholar Citations
13Google Scholar h-index
20Google Scholar i10-index

Research Interests

Topological materials, TMDs, Ultrafast applications, and their phenomena, Terahertz metasurfaces, Optoelectronics

Biography

Mr. Prince Sharma is a young researcher currently submitted his Ph.D. thesis under a dual degree program at RMIT University, Australia, and AcSIR, and CSIR-NPL, India. Born and raised in India, he grew up with a passion for science and technology, which led him to pursue his undergraduate and postgraduate degrees in Physics from the University of Delhi. After completing his Master's degree, Mr. Sharma worked as a research scholar at RMIT University, Australia and AcSIR, and CSIR-NPL, India, under a dual degree program where he worked on several projects related to revealing a tuneable photoconductive response of different vdW along with its intrinsic reason of such a modification. He has published several research papers in top-tier scientific journals and has presented his work at various international conferences.

Education

Joint Ph.D. Candidate Functional Materials and Microsystems Research Group School of Engineering, RMIT University, Melbourne, Australia Academy of scientific and innovative Research (AcSIR), India CSIR-National Physical Laboratory of India

Recent Scopus Publications

  1. Operando Time-of-Flight Secondary Ion Mass Spectrometry Visualization of Reversible and Irreversible Reactions in Oxide-Based Solid-State Batteries
    ACS Energy Letters, 2026
  2. Bandgap engineering and carrier dynamics in MoSSe alloys: A comparative analysis with MoS2 and MoSe2
    Optical Materials, 2026
  3. Dual Probe Optical and Electrical Investigation of Ultrafast Electron-Phonon Interaction in Bi2Se3/ZnSe Heterostructures
    ACS Applied Electronic Materials, 2025
  4. Exploring substrate and Structure-Induced ultrafast phonon dynamics in Bi2Te3 thin films
    Applied Surface Science, 2025
  5. Unveiling Optoelectronic Properties and Charge Carrier Dynamic Mechanisms in Bi2Se3-Based vdW Heterostructures
    ACS Applied Optical Materials, 2025

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