Difference between revisions of "Ganesh Sivaraman"

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(Research)
(Research)
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* The solid state device simulation involves gold electrodes embedded with diamond caged molecules (i.e. Diamondoids) for tunneling based electrical sequencing devices (including mutation and methylations). The device simulations are performed with in non equilibrium green's function formalism combined with DFT.  
 
* The solid state device simulation involves gold electrodes embedded with diamond caged molecules (i.e. Diamondoids) for tunneling based electrical sequencing devices (including mutation and methylations). The device simulations are performed with in non equilibrium green's function formalism combined with DFT.  
  
[[File:tip_Rev4.png|300px|center|DIamondoid tipped gold electrodes]]
+
[[File:tip_Rev4.png|600px|center|DIamondoid tipped gold electrodes]]
  
 
* Material modeling  of Semiconducting / metallic phase in MoS<sub>2</sub>  monolayer for novel nanoscale bio-sensing application.
 
* Material modeling  of Semiconducting / metallic phase in MoS<sub>2</sub>  monolayer for novel nanoscale bio-sensing application.

Revision as of 20:37, 2 June 2016

Ganesh sivaraman.jpg
Ganesh Sivaraman
PhD student
Office:1.080
Phone:+49 711 685-67721
Fax:+49 711 685-63658
Email:ganesh _at_ icp.uni-stuttgart.de
Address:Ganesh Sivaraman
Institute for Computational Physics
Universität Stuttgart
Allmandring 3
70569 Stuttgart
Germany

Research

My research involves computational modeling of solid state devices / materials for label free DNA sequencing. The calculations are performed with the framework of Density functional theory (DFT) combined with Non-Equilibrium Greens Function (NEGF) Formalism.

  • The solid state device simulation involves gold electrodes embedded with diamond caged molecules (i.e. Diamondoids) for tunneling based electrical sequencing devices (including mutation and methylations). The device simulations are performed with in non equilibrium green's function formalism combined with DFT.
DIamondoid tipped gold electrodes
  • Material modeling of Semiconducting / metallic phase in MoS2 monolayer for novel nanoscale bio-sensing application.

List of publications can be viewed here.

Master Thesis

application_pdf.png"Effect of The Protein Electric Field on The Spectral Tuning Of A Photosynthetic System" (267 KB)Info circle.png, 2012, CBBC Group, Sapienza University of Rome, Italy.