Experience

SPINTEC

• France
• Research Services
• 1 - 100 Employee

• Marie Sklodowska-Curie (SPEAR-ITN) Doctoral Researcher

  • Jan 2022 - Present

  • Development of spin orbit torque (SOT)-based next generation magnetic random access memories (MRAMs) • Electrical and magnetic characterization, and simulations of MRAM devices • Development of spin orbit torque (SOT)-based next generation magnetic random access memories (MRAMs) • Electrical and magnetic characterization, and simulations of MRAM devices



Antaios

• France
• Semiconductor Manufacturing
• 1 - 100 Employee

• Marie Sklodowska-Curie (SPEAR-ITN) Doctoral Researcher

  • Jan 2022 - Jun 2023

  • Development of spin orbit torque (SOT)-based next generation magnetic random access memories (MRAMs) • Electrical and magnetic characterization, and simulations of MRAM devices • Development of spin orbit torque (SOT)-based next generation magnetic random access memories (MRAMs) • Electrical and magnetic characterization, and simulations of MRAM devices



Helmholtz-Zentrum Dresden-Rossendorf (HZDR)

• Germany
• Research Services
• 200 - 300 Employee

• Student Assistant

  • Oct 2020 - Oct 2021

  • Fabricated spin Hall nano-oscillators using electron beam lithography and liftoff. • Characterized spin Hall nano-oscillators using Brillouin light scattering microscopy and an all-electrical detection technique. • Contributed to the development of a cryogenic Brilluoin light scattering microscope and detection of spin waves below 100 K. • Fabricated spin Hall nano-oscillators using electron beam lithography and liftoff. • Characterized spin Hall nano-oscillators using Brillouin light scattering microscopy and an all-electrical detection technique. • Contributed to the development of a cryogenic Brilluoin light scattering microscope and detection of spin waves below 100 K.



imec

• Belgium
• Research Services
• 700 & Above Employee

• Graduate Student Researcher

  • Jul 2020 - Sep 2020

  • Simulations of GaN-based heterojunction devices with Material and Component Analysis department. • Simulated interactions between SPM(Scanning Probe Microscopy) probe tip and GaN-based devices for understanding experimental results. • Simulations of GaN-based heterojunction devices with Material and Component Analysis department. • Simulated interactions between SPM(Scanning Probe Microscopy) probe tip and GaN-based devices for understanding experimental results.



CSIR - Institute of Minerals and Materials Technology

• Bhubaneswar, Odisha, India

• Summer Research Intern

  • May 2017 - Jul 2017

  • OBJECTIVE: Utilize the silica obtained after Fe2O3 extraction from BHJ to develop β-Silicon Carbide • Extracted Silica from BHJ by acid leaching process and prepared its homogeneous mixture with graphite powder. Prepared Silicon carbide using thermal plasma technique. • Characterized the obtained powder using X-Ray Diffraction, RAMAN spectroscopy and optical microscopy. • OBJECTIVE: Utilize the silica obtained after Fe2O3 extraction from BHJ to develop β-Silicon Carbide • Extracted Silica from BHJ by acid leaching process and prepared its homogeneous mixture with graphite powder. Prepared Silicon carbide using thermal plasma technique. • Characterized the obtained powder using X-Ray Diffraction, RAMAN spectroscopy and optical microscopy.



Log9 Materials

• India
• Nanotechnology Research
• 300 - 400 Employee

• Intern

  • Dec 2016 - Jan 2017

  • OBJECTIVE: Develop and optimize an economical and efficient material for water purification which can be expanded as a commercial product. • Prepared Graphene Oxide/Sand composite from sugar solution using an eco-friendly process. • Conducted experiments to study the effectiveness of the prepared composite in removal of heavy metal ions. • OBJECTIVE: Develop and optimize an economical and efficient material for water purification which can be expanded as a commercial product. • Prepared Graphene Oxide/Sand composite from sugar solution using an eco-friendly process. • Conducted experiments to study the effectiveness of the prepared composite in removal of heavy metal ions.



CSIR - National Physical Laboratory

• New Delhi, India

• Intern

  • Jun 2016 - Jul 2016

  • Prepared Graphene Oxide using Modified Hummers’ Method and Reduced Graphene Oxide using thermal reduction of graphene oxide and both were paper cast. • Characterized the prepared papers/sheets using SEM and studied for electromagnetic interference shielding. • Conducted an in-depth literature survey on different materials i.e., aerogels and thin films of carbon-based nanomaterials and metal sheets, used for electromagnetic interference shielding • Prepared Graphene Oxide using Modified Hummers’ Method and Reduced Graphene Oxide using thermal reduction of graphene oxide and both were paper cast. • Characterized the prepared papers/sheets using SEM and studied for electromagnetic interference shielding. • Conducted an in-depth literature survey on different materials i.e., aerogels and thin films of carbon-based nanomaterials and metal sheets, used for electromagnetic interference shielding