STAFF PROFILE
Dr. Azmira Jannat
Position:
Research Fellow
College / Portfolio:
STEM College
School / Department:
STEM|Research & Innovation
Email:
azmira.jannat@rmit.edu.au
Campus:
City Campus
- Nguyen, C.,Mazumder, A.,Mayes, E.,Krishnamurthi, V.,Zavabeti, A.,Murdoch, B.,Guo, X.,Aukarasereenont, P.,Dubey, A.,Jannat, A.,Wei, X.,Truong, V.,Bao, L.,Roberts, A.,McConville, C.,Walia, S.,Syed, N.,Daeneke, T. (2023). 2-nm-Thick Indium Oxide Featuring High Mobility In: Advanced Materials Interfaces, 10, 1 - 8
- Ahmed, T.,Jannat, A.,Krishnamurthi, V.,Aung, T.,Mazumder, A.,Zavabeti, A.,Syed, N.,Daeneke, T.,Ou, J.,Al-Hourani, A.,Walia, S. (2023). In press - Atomically Thin Synaptic Devices for Optoelectronic Neuromorphic Vision In: Advanced Materials Technologies, , 1 - 10
- Khan, M.,Sadiq, M.,Karuppasamy, G.,Xu, K.,Jannat, A.,Zhang, B.,Mohiuddin, M.,Haris, M.,Ou, R.,Afrin, S.,Alkathiri, T.,Loomba, S.,Mulet, X.,Mahmood, N.,Babarao, R.,Ou, J. (2022). Hetero-metallic metal-organic frameworks for room-temperature NO2 sensing In: Journal of Colloid and Interface Science, 610, 304 - 312
- Nguyen, C.,Low, M.,Zavabeti, A.,Murdoch, B.,Guo, X.,Aukarasereenont, P.,Mazumder, A.,Dubey, A.,Jannat, A.,Rahman, M.,Chiang, K.,Truong, V.,Bao, L.,McConville, C.,Walia, S.,Daeneke, T.,Syed, N. (2022). Atomically Thin Antimony-Doped Indium Oxide Nanosheets for Optoelectronics In: Advanced Optical Materials, 10, 1 - 9
- Alkathiri, T.,Xu, K.,Zhang, B.,Khan, M.,Jannat, A.,Syed, N.,Almutairi, A.,Ha, N.,Alsaif, M.,Pillai, N.,Li, Z.,Daeneke, T.,Ou, J. (2022). 2D Palladium Sulphate for Visible-Light-Driven Optoelectronic Reversible Gas Sensing at Room Temperature In: Small Science, 2, 1 - 9
- Zavabeti, A.,Aukarasereenont, P.,Tuohey, H.,Syed, N.,Jannat, A.,Elbourne, A.,Messalea, K.,Zhang, B.,Murdoch, B.,Partridge, J.,Wurdack, M.,Creedon, D.,van Embden, J.,Kalantar Zadeh, K.,Russo, S.,McConville, C.,Daeneke, T. (2021). High-mobility p-type semiconducting two-dimensional ß-TeO2 In: Nature Electronics, 4, 277 - 283
- Zhang, B.,Xu, K.,Yao, Q.,Jannat, A.,Ren, G.,Field, M.,Wen, X.,Zhou, C.,Zavabeti, A.,Ou, J. (2021). Hexagonal metal oxide monolayers derived from the metal–gas interface In: Nature Materials, 20, 1073 - 1078
- Nguyen, C.,Low, M.,Zavabeti, A.,Jannat, A.,Murdoch, B.,Della Gaspera, E.,Orrell-Trigg, R.,Walia, S.,Elbourne, A.,Truong, V.,McConville, C.,Syed, N.,Daeneke, T. (2021). Ultrathin oxysulfide semiconductors from liquid metal: a wet chemical approach In: Journal of Materials Chemistry C, 9, 11815 - 11826
- Alsaif, M.,Haque, F.,Alkathiri, T.,Krishnamurthi, V.,Walia, S.,Hu, Y.,Jannat, A.,Mohiuddin, M.,Xu, K.,Khan, M.,Ma, Q.,Wang, Y.,Pillai, N.,Murdoch, B.,Dickey, M.,Zhang, B.,Ou, J. (2021). 3D Visible-Light-Driven Plasmonic Oxide Frameworks Deviated from Liquid Metal Nanodroplets In: Advanced Functional Materials, 31, 1 - 13
- Messalea, K.,Syed, N.,Zavabeti, A.,Mohiuddin, M.,Jannat, A.,Aukarasereenont, P.,Nguyen, C.,Low, M.,Walia, S.,Mahmood, N.,Khoshmanesh, K.,Daeneke, T, et al, . (2021). High-k 2D Sb2O3 Made Using a Substrate-Independent and Low-Temperature Liquid-Metal-Based Process In: ACS Nano, 15, 16067 - 16075