STAFF PROFILE
Dr Alastair Stacey
Position:
Professor
College / Portfolio:
STEM College
School / Department:
STEM|School of Science
Phone:
+61399255968
Email:
alastair.stacey@rmit.edu.au
Campus:
City Campus
Contact me about:
Research supervision
- Oslinker, B.,Hoxley, D.,Tadich, A.,Stacey, A.,Yianni, S.,Griffin, R.,Gill, E.,Pakes, C.,Schenk, A. (2023). Surface transfer doping of oxidised silicon-terminated (111) diamond using MoO3 In: Diamond and Related Materials, 133, 1 - 6
- Mukherjee, S.,Zhang, Z.,Oblinsky, D.,De Vries, M.,Johnson, B.,Gibson, B.,Mayes, E.,Stacey, A.,Reineck, P., et al, . (2023). A Telecom O-Band Emitter in Diamond In: Nano Letters, 23, 2557 - 2562
- Dontschuk, N.,Rodgers, L.,Chou, J.,Evans, D.,O'Donnell, K.,Johnson, H.,Tadich, A.,Schenk, A.,Gali, A.,De Leon, N.,Stacey, A. (2023). X-ray quantification of oxygen groups on diamond surfaces for quantum applications In: Materials for Quantum Technology, 3, 1 - 12
- Falahatdoost, S.,Chambers, A.,Stacey, A.,Prawer, S.,Ahnood, A. (2022). Towards optical neuromodulation using nitrogen-doped ultrananocrystalline diamond photoelectrodes In: Surfaces and Interfaces, 30, 1 - 10
- Syed, N.,Stacey, A.,Zavabeti, A.,Nguyen, C.,Haas, B.,Koch, C.,Creedon, D.,Della Gaspera, E.,Reineck, P.,Abbas, S.,Russo, S.,Murdoch, B.,McConville, C.,Daeneke, T., et al, . (2022). Large Area Ultrathin InN and Tin Doped InN Nanosheets Featuring 2D Electron Gases In: ACS Nano, 16, 5476 - 5486
- White, S.,Dontschuk, N.,Xu, Z.,Kianinia, M.,Stacey, A., et al, . (2022). Electrical control of quantum emitters in a Van der Waals heterostructure In: Light: Science and Applications, 11, 1 - 9
- Schenk, A.,Sear, M.,Dontschuk, N.,Tadich, A.,Stacey, A.,Pakes, C. (2022). Fluorination of the silicon-terminated (100) diamond surface using C60F48 In: Diamond and Related Materials, 126, 1 - 6
- S, S.,Abrahams, G.,Johnson, B.,Healey, A.,Robertson, I.,Simpson, D.,Stacey, A.,Onoda, S.,Ohshima, T.,Kho, T.,Michel, J.,Bullock, J.,Hollenberg, L.,Tetienne, J. (2022). Imaging Current Paths in Silicon Photovoltaic Devices with a Quantum Diamond Microscope In: Physical Review Applied, 18, 1 - 14
- McCloskey, D.,Dontschuk, N.,Stacey, A.,Pattinson, C.,Athavan, N.,Hall, L.,Hollenberg, L.,Prawer, S.,Simpson, D. (2022). A diamond voltage imaging microscope In: Nature Photonics, 16, 730 - 736
- Wood, A.,Stacey, A.,Martin,, A. (2022). Dc Quantum Magnetometry below the Ramsey Limit In: Physical Review Applied, 18, 1 - 13
- Dopant engineering of diamond for quantum sensing technologies. Funded by: ARC Discovery Projects commencing in 2022 from (2022 to 2025)
- An atom-scale fabrication technique for diamond quantum microprocessors (administered by La Trobe University). Funded by: ARC Linkage via Other University from (2022 to 2024)
- Diamond co-doping for quantum sensor applications 2 (externally led by Princeton Plasma Physics Laboratory). Funded by: U.S. Department of Energy - Grant from (2022 to 2025)
- Quantum Diamond-based Geophysical Sensor Technology. Funded by: Rio Tinto Australia-Japan Collaboration Program from (2020 to 2022)
- Manufacturing diamond membranes for quantum industries (administered by Melbourne University). Funded by: ARC Linkage via Other University from (2020 to 2023)
3 PhD Current Supervisions