Vidwan-ID : 150409



  • Dr Jithin John Varghese

  • Assistant Professor
  • Indian Institute of Technology Madras
Publications 2014 - 2023

Publications

  • 19
    Journal Articles
  • 1
    Conference
    Proceedings
  • 3
    Review
  • 1
    Note
  • 1
    Projects
  • 1
  • 3
  • 18

Citations / H-Index

363 Citations
10 h-index
212 Citations

Co-author Network


Expertise

Chemical Engineering

The group's expertise lies primarily in atomistic and computational modelling of heterogeneous catalytic reactions and surface phenomena. Using Density Functional Theory simulations, Molecular Dynamics simulations, Monte Carlo methods and kinetic modelling, we hope to address complexities across length and times scales (atomistic to reactor) to enable rational design of efficient catalysts, optimization of catalytic reaction systems and rapid screening of novel catalysts.

Personal Information

Dr Jithin John Varghese

Male
Department Of Chemical Engineering Indian Institute Of Technology, Madras, Tamil Nadu, India
Chennai, Tamil Nadu, India - 600036


Experience

  • Assistant Professor

    Indian Institute of Technology Madras


Qualification

  • Ph.D.

    Nanyang Technological University Singapore

  • B.Tech

    Sardar Vallabhbhai National Institute of Technology, Surat


Honours and Awards

2017

Best PhD Thesis Award 2017

Department of Chemical Engineering, Nanyang Technological University Singapore

2016

Outstanding Graduate Student Researcher Award

American Institute of Chemical Engineers Singapore Local Section

2017

Best PhD Thesis Award 2017

Department of Chemical Engineering, Nanyang Technological University Singapore

2016

Outstanding Graduate Student Researcher Award

American Institute of Chemical Engineers Singapore Local Section

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Membership In Professional Bodies

American Institute of Chemical Engineers

Member

American Chemical Society

Member

American Institute of Chemical Engineers

Member

American Chemical Society

Member

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Research Projects

Aqueous-phase Mild Oxidation of Methane to Methanol on Atomically Dispersed Catalysts: Mechanistic Insights and Solvent Effects from First Principles

Funding Agency : Science and Engineering Research Board

Aqueous-phase Mild Oxidation of Methane to Methanol on Atomically Dispersed Catalysts: Mechanistic Insights and Solvent Effects from First Principles

Funding Agency : Science and Engineering Research Board

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