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Debanjan Acharyya
Debanjan Acharyya
Assistant Professor, National Institute of Technology Agartala
Verified email at nita.ac.in - Homepage
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Cited by
Year
A journey towards reliability improvement of TiO2 based resistive random access memory: a review
D Acharyya, A Hazra, P Bhattacharyya
Microelectronics reliability 54 (3), 541-560, 2014
1202014
Hybrid 3D structures of ZnO nanoflowers and PdO nanoparticles as a highly selective methanol sensor
D Acharyya, KY Huang, PP Chattopadhyay, MS Ho, HJ Fecht, ...
Analyst 141, 2977-2989, 2016
792016
Alcohol Sensing Performance of ZnO Hexagonal Nanotubes at Low Temperatures: A Qualitative Understanding
D Acharyya, P Bhattacharyya
Sensors and Actuators B: Chemical 228 (2), 373–386, 2016
772016
Highly Efficient Room Temperature Gas Sensor based on TiO2 Nanotubes-Reduced Graphene Oxide Hybrid Device
D Acharyya, P Bhattacharyya
IEEE Electron Device Letters 37 (5), 656 - 659, 2016
762016
An efficient BTX sensor based on ZnO nanoflowers grown by CBD method
D Acharyya, P Bhattacharyya
Solid-State Electronics 106, 18-26, 2015
422015
A comparative study on performance improvement of ZnO nanotubes based alcohol sensor devices by Pd and rGO hybridization
I Maity, D Acharyya, K Huang, P Chung, M Ho, P Bhattacharyya
IEEE Transactions on Electron Devices 65 (8), 3528-3534, 2018
312018
Quasi-two-dimensional luminescent silicon nanosheets
D Karar, NR Bandyopadhyay, AK Pramanick, D Acharyya, G Conibeer, ...
The Journal of Physical Chemistry C 122 (33), 18912-18921, 2018
262018
Highly repeatable multilevel resistive switching characteristics of an Au/TiO2/Ti memory device
D Acharyya, A Hazra, K Dutta, RK Gupta, P Bhattacharyya
Semiconductor science and technology 28 (12), 125001, 2013
222013
Influence of rGO cladding in improving the sensitivity and selectivity of ZnO nanoflowers-based alcohol sensor
D Acharyya, A Saini, P Bhattacharyya
IEEE Sensors Journal 18 (5), 1820-1827, 2018
212018
Impact of Device Configurations on Sensing Performance of WS2-Based Gas Sensors: A Review
P Bhattacharyya, D Acharyya
IEEE Sensors Journal 21 (20), 22414-22425, 2021
192021
Highly sensitive ppb level methanol sensor by tuning C: O ratio of rGO-TiO2 nanotube hybrid structure
D Acharyya, S Acharyya, K Huang, P Chung, M Ho, P Bhattacharyya
IEEE Transactions on Nanotechnology 16 (6), 1122-1128, 2017
192017
Resistive and capacitive measurement of nano-structured gas sensors
P Bhattacharyya, D Acharyya, K Dutta
Environmental Nanotechnology: Volume 2, 25-62, 2019
122019
Understanding the Apparent Non-Reliability in the Sensing Characteristics of MnO2 Self-Assembled Hierarchical Nanostructure
RR Chaudhuri, D Acharyya, S Ghosal, P Chung, M Ho, P Bhattacharyya
IEEE Transactions on Device and Materials Reliability 18 (4), 628-635, 2018
72018
A comparative study on methanol sensing performance of ZnO nanoflower and nanorod based resistive devices
D Acharyya, N Banerjee, P Bhattacharyya
SENSORS, 2014 IEEE, 811-814, 2014
62014
Hierarchical MnO2 Nanoflowers Based Efficient Room Temperature Alcohol Sensor
D Acharyya, S Ghosal, R Roychaudhuri, P Bhattacharyya
2018 IEEE SENSORS, 1-4, 2018
52018
Noise analysis-resonant frequency-based combined approach for concomitant detection of unknown vapor type and concentration
D Acharyya, RR Chaudhuri, P Bhattacharyya
IEEE Transactions on Instrumentation and Measurement 68 (8), 3004-3011, 2018
52018
Functionalization of graphene and its derivatives for developing efficient solid-state gas sensors: Trends and challenges
D Acharyya, P Bhattacharyya
Functional Nanomaterials: Advances in Gas Sensing Technologies, 245-284, 2020
32020
Morphological evolution of MnO2 based nanostructures by tuning the reaction time
R Roychaudhuri, D Acharyya, P Bhattacharyya
2018 International Symposium on Devices, Circuits and Systems (ISDCS), 1-4, 2018
32018
Electrochemically grown nono-structured TiO2 based low power resistive random access memory
A Hazra, D Acharyya, P Bhattacharyya
2013 IEEE International Conference ON Emerging Trends in Computing …, 2013
12013
Maneuvering the Nanostructures of ZnO and TiO2 using Reduced Graphene Oxide and Pd Nanoparticles for Efficient Binary Hybrid Gas Sensor Device Development
D Acharyya
Shibpur, 2019
2019
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