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Ramesh Thamankar

Ramesh Thamankar

VIT University

H-index: 11

Asia-India

About Ramesh Thamankar

Ramesh Thamankar, With an exceptional h-index of 11 and a recent h-index of 7 (since 2020), a distinguished researcher at VIT University, specializes in the field of Physics at Nanoscale, Nanoelectronics, Nanoscale physical Analysis, device physics and Spintronics.

His recent articles reflect a diverse array of research interests and contributions to the field:

Guidelines for the Design of Random Telegraph Noise-Based True Random Number Generators

Spike rate dependent synaptic characteristics in lamellar, multilayered alpha-MoO3 based two-terminal devices – efficient way to control the synaptic amplification

Bio-inspired artificial synapse for neuromorphic computing based on NiO nanoparticle thin film

Artificial synapse based on carbon quantum dots dispersed in indigo molecular layer for neuromorphic applications

Coexistence of synaptic behaviour and negative differential resistance at room temperature in the resistive switching device based on natural indigo molecules

Reliability Analysis of Random Telegraph Noisebased True Random Number Generators

Room-Temperature Deep-UV Photoluminescence from Low-Dimensional Hexagonal Boron Nitride Prepared Using a Facile Synthesis

Resistive Switching and Hysteresis Phenomena at Nanoscale

Ramesh Thamankar Information

University

Position

___

Citations(all)

356

Citations(since 2020)

135

Cited By

278

hIndex(all)

11

hIndex(since 2020)

7

i10Index(all)

14

i10Index(since 2020)

6

Email

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University Profile Page

VIT University

Google Scholar

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Ramesh Thamankar Skills & Research Interests

Physics at Nanoscale

Nanoelectronics

Nanoscale physical Analysis

device physics and Spintronics

Top articles of Ramesh Thamankar

Title

Journal

Author(s)

Publication Date

Guidelines for the Design of Random Telegraph Noise-Based True Random Number Generators

IEEE Transactions on Device and Materials Reliability

Tommaso Zanotti

Alok Ranjan

Sean J O’Shea

Nagarajan Raghavan

Ramesh Thamankar

...

2024/4/29

Spike rate dependent synaptic characteristics in lamellar, multilayered alpha-MoO3 based two-terminal devices – efficient way to control the synaptic amplification

RSC ADVANCES

Meenu Maria Sunny

R Thamankar

2024/1/15

Bio-inspired artificial synapse for neuromorphic computing based on NiO nanoparticle thin film

Scientific Reports

Keval Hadiyal

R Ganesan

A Rastogi

R Thamankar

2023/5/9

Artificial synapse based on carbon quantum dots dispersed in indigo molecular layer for neuromorphic applications

APL Materials

Amrita Bharati Mishra

R Thamankar

2023/4/1

Coexistence of synaptic behaviour and negative differential resistance at room temperature in the resistive switching device based on natural indigo molecules

Dyes and Pigments

B Sreelakshmi

R Thamankar

2023/11/1

Reliability Analysis of Random Telegraph Noisebased True Random Number Generators

Tommaso Zanotti

Alok Ranjan

Sean J O’Shea

Nagarajan Raghavan

Ramesh Thamankar

...

2023/10/8

Room-Temperature Deep-UV Photoluminescence from Low-Dimensional Hexagonal Boron Nitride Prepared Using a Facile Synthesis

ACS OMEGA

A Ashly Sunny

A. Balapure

R Ganesan

R Thamankar

2022/9/15

Resistive Switching and Hysteresis Phenomena at Nanoscale

Vithaldas Raja

Ramesh Mohan Thamankar

2022/2/25

Effect of controlled humidity on resistive switching of multilayer VO2 devices

Materials Science and Engineering B

R.Thamankar Vithaldas Raja

Keval Hadiyal

Aswini Kumar Nath

Leema Rose Viannie

Prashant Sonar

...

2021/2

A Comparative Study of Crystallography and Defect Structure of Corneal Nipple Array in Daphnis nerii Moth and Papilio polytes Butterfly Eye

ACS omega

Shamprasad Varija Raghu

R Thamankar

2020/9/9

See List of Professors in Ramesh Thamankar University(VIT University)