STAFF PROFILE
Dr Torben Daeneke
Position:
Senior Lecturer
College / Portfolio:
School of Engineering
School / Department:
Chemical and Environmental Engineering
Phone:
99258969
Email:
torben.daeneke@rmit.edu.au
Campus:
Melbourne City Campus
Contact me about:
Research supervision
- Elbourne, A.,Cheeseman, S.,Atkin, P.,Truong, N.,Syed, N.,Zavabeti, A.,Mohiuddin, M.,Esrafilzadeh, D.,Cozzolino, D.,McConville, C.,Dickey, M.,Crawford, R.,Kalantar Zadeh, K.,Chapman, J.,Daeneke, T.,Truong, V. (2020). Antibacterial Liquid Metals: Biofilm Treatment via Magnetic Activation In: ACS Nano, 14, 802 - 817
- Datta, R.,Syed, N.,Zavabeti, A.,Jannat, A.,Mohiuddin, M.,Robel, M.,Zhang, B.,Rahman, M.,Atkin, P.,Messalea, K.,Ghasemian, M.,Della Gaspera, E.,Bhattacharyya, S.,Fuhrer, M.,Russo, S.,McConville, C.,Esrafilzadeh, D.,Kalantar Zadeh, K.,Daeneke, T. (2020). Flexible two-dimensional indium tin oxide fabricated using a liquid metal printing technique In: Nature Electronics, 3, 51 - 58
- Jannat, A.,Yao, Q.,Zavabeti, A.,Syed, N.,Zhang, B.,Ahmed, T.,Kuriakose, S.,Mohiuddin, M.,Pillai, N.,Haque, F.,Ren, G.,Abbas, S.,Spencer, M.,Murdoch, B.,Wang, L.,McConville, C.,Walia, S.,Daeneke, T.,Ou, J. (2020). Ordered-vacancy-enabled indium sulphide printed in wafer-scale with enhanced electron mobility In: Materials Horizons, 7, 827 - 834
- Ghasemian, M.,Daeneke, T.,Shahrbabaki, Z.,Yang, J.,Kalantar Zadeh, K. (2020). Peculiar piezoelectricity of atomically thin planar structures In: Nanoscale, 12, 2875 - 2901
- Cheeseman, S.,Christofferson, A.,Kariuki, R.,Cozzolino, D.,Daeneke, T.,Crawford, R.,Truong, V.,Chapman, J.,Elbourne, A. (2020). Antimicrobial Metal Nanomaterials: From Passive to Stimuli-Activated Applications In: Advanced Science, 7, 1 - 35
- Alkathiri, T.,Dhar, N.,Jannat, A.,Syed, N.,Mohiuddin, M.,Alsaif, M.,Datta, R.,Messalea, K.,Zhang, B.,Khan, M.,Elbourne, A.,Pillai, N.,Ou, J.,Zavabeti, A.,Daeneke, T. (2020). Atomically thin TiO2 from Gallium liquid metal chemistry In: Chemical Communications, 56, 4914 - 4917
- Khan, H.,Mahmood, N.,Zavabeti, A.,Elbourne, A.,Rahman, M.,Zhang, B.,Krishnamurthi, V.,Atkin, P.,Ghasemian, M.,Yang, J.,Zheng, G.,Ravindran, A.,Walia, S.,Wang, L.,Russo, S.,Daeneke, T.,Li, Y.,Kalantar Zadeh, K. (2020). Liquid metal-based synthesis of high performance monolayer SnS piezoelectric nanogenerators In: Nature Communications, 11, 1 - 8
- Zhang, C.,Allioux, F.,Rahim, M.,Daeneke, T., et al, . (2020). Nucleation and Growth of Polyaniline Nanofibers onto Liquid Metal Nanoparticles In: Chemistry of Materials, 32, 4808 - 4819
- Siddiquee, A.,Houri, A.,Messalea, K.,Lin, J.,Daeneke, T.,Abbey, B.,Mechler, A.,Kou, S. (2020). Nanoscale Probing of Cholesterol-Rich Domains in Single Bilayer Dimyristoyl-Phosphocholine Membranes Using Near-Field Spectroscopic Imaging In: The journal of physical chemistry letters, 11, 9476 - 9484
- Ghasemian, M.,Zavabeti, A.,Abbasi, R.,Kumar, P.,Syed, N.,Daeneke, T., et al, . (2020). Ultra-Thin lead oxide piezoelectric layers for reduced environmental contamination using a liquid metal-based process In: Journal of Materials Chemistry A, 8, 19434 - 19443
Note: Supervision projects since 2004
9 PhD Completions9 PhD Current Supervisions and 1 Masters by Research Current Supervisions
2D materials, Nano science, Sensors, Solar cells, Advanced electronics, Synthesis of nano materials, Charge transfer processes, Surface chemistry, Ambient temperature liquid metals, Optoelectronics
- 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)
- Liquid metal chemistry towards grain boundary-free electronic materials. Funded by: ARC Discovery Early Career Researcher Award (DECRA) 2019 from (2019 to 2022)