| Improved sensitivity with low limit of detection of a hydrogen gas sensor based on rGO-loaded Ni-doped ZnO nanostructures VS Bhati, S Ranwa, S Rajamani, K Kumari, R Raliya, P Biswas, M Kumar ACS applied materials & interfaces 10 (13), 11116-11124, 2018 | 151 | 2018 |
| Pd/ZnO nanorods based sensor for highly selective detection of extremely low concentration hydrogen M Kumar, VS Bhati, S Ranwa, J Singh, M Kumar Scientific Reports 7 (236), 2017 | 144 | 2017 |
| Efficient hydrogen sensor based on Ni-doped ZnO nanostructures by RF sputtering VS Bhati, S Ranwa, M Fanetti, M Valant, M Kumar Sensors and Actuators B: Chemical 255, 588-597, 2018 | 125 | 2018 |
| Growth of residual stress-free ZnO films on SiO2/Si substrate at room temperature for MEMS devices J Singh, S Ranwa, J Akhtar, M Kumar AIP Advances 5 (6), 2015 | 61 | 2015 |
| Defect-free ZnO nanorods for low temperature hydrogen sensor applications S Ranwa, PK Kulriya, VK Sahu, LM Kukreja, M Kumar Applied Physics Letters 105 (21), 2014 | 48 | 2014 |
| Development of cost effective metal oxide semiconductor based gas sensor over flexible chitosan/PVP blended polymeric substrate R Kumar, H Rahman, S Ranwa, A Kumar, G Kumar Carbohydrate polymers 239, 116213, 2020 | 46 | 2020 |
| Efficient room-temperature hydrogen sensor based on UV-activated ZnO nano-network M Kumar, R Kumar, S Rjamani, S Ranwa, M Fanetti, M Valant, M Kumar Nanotechnology, 2017 | 46 | 2017 |
| Schottky-contacted vertically self-aligned ZnO nanorods for hydrogen gas nanosensor applications S Ranwa, M Kumar, J Singh, M Fanetti, M Kumar Journal of Applied Physics 118 (3), 2015 | 45 | 2015 |
| Biodegradable flexible substrate based on chitosan/PVP blend polymer for disposable electronics device applications R Kumar, S Ranwa, G Kumar The Journal of Physical Chemistry B 124 (1), 149-155, 2019 | 42 | 2019 |
| Effect of gamma irradiation on Schottky-contacted vertically aligned ZnO nanorod-based hydrogen sensor S Ranwa, SS Barala, M Fanetti, M Kumar Nanotechnology 27 (34), 345502, 2016 | 22 | 2016 |
| Temperature dependent electrical transport studies of self-aligned ZnO nanorods/Si heterostructures deposited by sputtering S Ranwa, P Kumar Kulriya, V Dixit, M Kumar Journal of Applied Physics 115 (23), 2014 | 21 | 2014 |
| Highly sensitive NO2 gas sensor based on Ag decorated ZnO nanorods S Saini, A Kumar, S Ranwa, AK Tyagi Applied Physics A 128 (5), 454, 2022 | 16 | 2022 |
| Implementation of all‐optical Toffoli gate by 2D Si–air photonic crystal P De, S Ranwa, S Mukhopadhyay IET optoelectronics 15 (3), 139-148, 2021 | 13 | 2021 |
| Improvement in the sensing response of nano-crystalline ZnO-based hydrogen sensor: effect of swift heavy ion irradiation S Ranwa, M Kumar, PK Kulriya, M Fanetti, M Valant, M Kumar IEEE Sensors Journal 16 (21), 7586-7592, 2016 | 13 | 2016 |
| Intensity and phase encoding for realization of integrated Pauli X, Y and Z gates using 2D photonic crystal P De, S Ranwa, S Mukhopadhyay Optics & Laser Technology 152, 108141, 2022 | 12 | 2022 |
| Radiation Induced Response ofBased Tunable Capacitors Under Gamma Irradiation SS Barala, J Singh, S Ranwa, M Kumar IEEE Transactions on Nuclear Science 62 (4), 1873-1878, 2015 | 7 | 2015 |
| Highly sensitive H2 gas sensor of Co doped ZnO nanostructures VS Bhati, S Ranwa, M Kumar AIP Conference Proceedings 1942 (1), 2018 | 3 | 2018 |
| Alternative scheme for implementation of 3 qubit Fredkin gate with photonic bandgap crystal P De, S Ranwa, S Mukhopadhyay Optics & Laser Technology 167, 109804, 2023 | 2 | 2023 |
| Sensing Materials: Ceramics S Ranwa, M Kumar Elsevier, 2023 | 1 | 2023 |
| Fabrication of SnS₂ nanomesh based energy efficient NO₂ gas sensor using CVD S Biswas, S Ranwa 2023 4th IEEE Global Conference for Advancement in Technology (GCAT), 1-5, 2023 | | 2023 |
