Experience

Vellore Institute of Technology, Vellore

• India
• Higher Education
• 100 - 200 Employee

• Associate Professor

  • May 2017 - Present

• Associate Professor

  • May 2017 - Present

  Want to understand small things. Trying to understand nature at small scale ( SMALL = nanoscale and atomic scale).



Singapore University of Technology and Design (SUTD)

• Singapore
• Higher Education
• 700 & Above Employee

• Senior Research Scientist

  • Apr 2014 - Present

  - Breakdown analysis of high-k dielectric Materials. - Atomic scale analysis of defects and vacancies in high-k dielectric materials. - Nano scale structural and electrical characterisation of ferroelectric Nanofibers. - NC-AFM, C-AFM and RT_STM, Multiprobe electrical measurements. - Breakdown analysis of high-k dielectric Materials. - Atomic scale analysis of defects and vacancies in high-k dielectric materials. - Nano scale structural and electrical characterisation of ferroelectric Nanofibers. - NC-AFM, C-AFM and RT_STM, Multiprobe electrical measurements.



Institite of Materials Research and Engineering

• Scientist

  • Mar 2010 - Mar 2014

  Expertise : High resolution scanning electron microscope Scanning tunneling microscopy, multiprobe - scanning tunneling microscope Nano scale electronic transport 2D materials Interest : 2D materials, quantum dots, electronic transport and spin-transport in nano devices. Expertise : High resolution scanning electron microscope Scanning tunneling microscopy, multiprobe - scanning tunneling microscope Nano scale electronic transport 2D materials Interest : 2D materials, quantum dots, electronic transport and spin-transport in nano devices.



Max Planck Institute of Microstructure Physics

• Germany
• Research Services
• 1 - 100 Employee

• Postdoctoral Fellow

  • Nov 2006 - Dec 2009

  To achieve the highest area density of magnetic bits on a surface. A new approach involving molecules and magnetic atoms. - Scanning tunneling microscopy (LT and VT) - Low energy electron diffraction - Auger electron spectroscopy - organic epitaxy - Adsorption of molecules on surfaces To achieve the highest area density of magnetic bits on a surface. A new approach involving molecules and magnetic atoms. - Scanning tunneling microscopy (LT and VT) - Low energy electron diffraction - Auger electron spectroscopy - organic epitaxy - Adsorption of molecules on surfaces



University of California, Riverside

• United States
• Higher Education
• 700 & Above Employee

• Postdoctoral Fellow

  • Aug 2004 - Nov 2006

  Electron and spin-transport studies of Nano devices. - spin transport in CNT based spin valves. - UHV, electron spectroscopy - nano-scale electron transport, nano devices. Electron and spin-transport studies of Nano devices. - spin transport in CNT based spin valves. - UHV, electron spectroscopy - nano-scale electron transport, nano devices.



Freie Universität Berlin

• Germany
• Research Services
• 700 & Above Employee

• Graduate Student

  • May 2000 - May 2004

  - Setting up a UHV chamber for the growth and characterization of magnetic ultrathin alloy films. - Precise thickness of Ultra thin films were characterized using electron diffraction technique(LEED, RHEED, AUGER). -Characterization techniques like MOKE was used to determine the magnetism at 2-dimensions. - Structure -property relation in ultrathin alloy films. - Setting up a UHV chamber for the growth and characterization of magnetic ultrathin alloy films. - Precise thickness of Ultra thin films were characterized using electron diffraction technique(LEED, RHEED, AUGER). -Characterization techniques like MOKE was used to determine the magnetism at 2-dimensions. - Structure -property relation in ultrathin alloy films.