Dr Torben Daeneke - RMIT University

Position: Senior Lecturer

College / Portfolio: STEM College

School / Department: STEM|School of Engineering

Phone: +61399258969

Email: torben.daeneke@rmit.edu.au

Campus: City Campus

Contact me about: Research supervision

ORCID: https://orcid.org/0000-0003-1142-8646

Publications

Jannat, A.,Syed, N.,Xu, K.,Rahman, M.,Talukder, M.,Messalea, K.,Mohiuddin, M.,Datta, R.,Khan, M.,Alkathiri, T.,Murdoch, B.,Reza, Z.,Li, J.,Daeneke, T.,Zavabeti, A.,Ou, J. (2021). Printable Single-Unit-Cell-Thick Transparent Zinc-Doped Indium Oxides with Efficient Electron Transport Properties In: ACS Nano, 15, 4045 - 4053
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
Elbourne, A.,Besford, Q.,Meftahi, N.,Crawford, R.,Daeneke, T.,Greaves, T.,McConville, C.,Bryant, G.,Bryant, S.,Christofferson, A. (2021). The Impact of Water on the Lateral Nanostructure of a Deep Eutectic Solvent-Solid Interface In: Australian Journal of Chemistry, , 1 - 15
Bajaj, N.,Periasamy, S.,Singh, R.,Tachibana, Y.,Daeneke, T.,Chiang, K. (2021). The catalytic decomposition of carbon dioxide on zinc-exchanged Y-zeolite at low temperatures In: Journal of Chemical Technology and Biotechnology, 96, 2675 - 2680
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
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
Messalea, K.,Syed, N.,Zavabeti, A.,Mohiuddin, M.,Jannat, A.,Aukarasereenont, P.,Nguyen, K.,Low, M.,Walia, S.,Haas, B.,Koch, C.,Mahmood, N.,Khoshmanesh, K.,Kalantar Zadeh, K.,Daeneke, T. (2021). High- k 2D Sb2O3Made Using a Substrate-Independent and Low-Temperature Liquid-Metal-Based Process In: ACS Nano, 15, 16067 - 16075
Daeneke, T.,Tang, J.,Tang, J.,Mayyas, M.,Daeneke, T.,Zavabeti, A.,Kalantar Zadeh, K., et al.,, . (2021). (In Press) Liquid-Metal-Enabled Mechanical-Energy-Induced CO2 Conversion In: Advanced Materials, , 1 - 11
Daeneke, T.,Tang, J.,Tang, J.,Mayyas, M.,Daeneke, T.,Zavabeti, A.,Kalantar Zadeh, K., et al.,, . (2021). (In Press) Liquid-Metal-Enabled Mechanical-Energy-Induced CO2 Conversion In: Advanced Materials, , 1 - 11
Yun, T.,Wurdack, M.,Nguyen, K.,Daeneke, T., et al.,, . (2021). Influence of direct deposition of dielectric materials on the optical response of monolayer WS2 In: Applied Physics Letters, 119, 1 - 8

Supervisor Projects

Note: Supervision projects since 2004

10 PhD Completions and 1 Masters by Research Completions9 PhD Current Supervisions and 1 Masters by Research Current Supervisions

Supervisor Interests

2D materials, Nano science, Sensors, Solar cells, Advanced electronics, Synthesis of nano materials, Charge transfer processes, Surface chemistry, Ambient temperature liquid metals, Optoelectronics

Grants

Magnetometry Facility for Molecular and Nanoscale Materials (Administered by University of Melbourne). Funded by: ARC LIEF via other University from (2021 to 2022)
Ultrafast Laser Spectroscopy Facility (administered by University of Melbourne). Funded by: ARC LIEF via other University from (2020 to 2021)
Women in FLEET PhD Top-Up scholarship awarded to Patjaree Aukarasereenont (Administered by Monash University). Funded by: FLEET Strategic Research Seed Funding Program from (2020 to 2023)
Women in FLEET PhD Top-Up scholarship awarded to Abigail Goff (Administered by Monash University). Funded by: FLEET Strategic Research Seed Funding Program from (2020 to 2023)
Opto-mechanics of ferroic 2D materials. Funded by: Universities Australia from (2020 to 2022)

Publications

Supervisor Projects

Supervisor Interests

Grants

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