Email: kaustab@vit.ac.in
PhD: University of Calcutta
Research Area: Computational Nanoelectronics, Design of Nanoscale Devices, graphene nanotransistor
Employee ID | 50500 | ||||
Intercom | 1203 | ||||
Educational details (Please mention all the degrees with latest first) | |||||
Degree | Passed out year | Specialization | Institute/University/ College | ||
PhD | 2010 | Electronics | University of Calcutta | ||
M.Tech/M.Sc | 2004 | Electronic Science | University of Calcutta | ||
B.E./B.Tech/B.Sc | Electronic Honours | University of Calcutta | |||
Post-Doctoral Experience if any | Two years post-doctoral research experience in Centre for Excellence in Nanoelectronics of Indian Institute of Technology Bombay | ||||
Research Details | |||||
Areas of Specialization | Nanoelectronics | ||||
ORCID ID | 0000-0002-1517-2986/https://orcid.org/0000-0002-1517-2986 | ||||
Scopus ID | 57195423285/https://www.scopus.com/authid/detail.uri?authorId=57195423285 | ||||
H-index (scopus) | 7 | ||||
Google Scholar ID | t_E3EqIAAAAJ&hl=en/https://scholar.google.ca/citations?user=t_E3EqIAAAAJ&hl=en | ||||
i10 index | 7 | ||||
Completed Funded Project Details | |||||
Completed Funded Project Title | Funding Agency | ||||
Growth and characterization of self-assembled InAs/GaAs quantum dot infrared photodetectors for high temperature and long wavelength operation | DST Fast Track | ||||
Development of a SPICE-Compatible Model for Single Event Transients for Circuit Simulations and its Application in SET-Tolerant DLL Design | DST SERB | ||||
Patent Published Details | |||||
Patent Published Title | Patent Published Application No. | ||||
Graphene field effect transistor design with reduced internal parasitic fringe capacitance | 202141008501 A | ||||
Design of nanoscale MOSFET based hydrogen gas sensor circuit with high sensiticity | 201941037222 | ||||
Book / Book Chapter Published Details | |||||
Title | Publisher | Year | |||
“Size optimization of InAs/GaAs quantum dots for longer storage memory applications“ in the book titled Nanoelectronic Materials and Devices, Lecture Notes in Electrical Engineering | Springer | 2018 | |||
“Simulation study on the material forming process during zone refining of gallium” in Advances in Technologically Important Crystals | Macmillan | 2006 | |||
Major International CollaborationDetails – AcademicCollaboration Details | |||||
Type of collaboration (Research & publication/Funded Project/consultancy etc.), collaborating institute, year of collaboration | |||||
Research and publication, CIMAP, ENSICAEN, University of Normandie, 2018 |
