STAFF PROFILE
Dr Marco Capelli
Position:
Research Assistant
College / Portfolio:
STEM College
School / Department:
STEM|School of Science
Email:
marco.capelli@rmit.edu.au
Campus:
City Campus
- Capelli, M.,Lindner, L.,Johnson, B.,Stacey, A.,Reineck, P.,Gibson, B.,Greentree, A. D., et al, . (2022). Proximal nitrogen reduces the fluorescence quantum yield of nitrogen-vacancy centres in diamond In: New Journal of Physics, 24, 2 - 10
- Luo, T.,Lindner, L.,Johnson, B.,Capelli, M., et al, . (2022). Creation of nitrogen-vacancy centers in chemical vapor deposition diamond for sensing applications In: New Journal of Physics, 24, 1 - 16
- Hahl, F.,Luo, T.,Vidal, X.,Ohshima, T.,Capelli, M.,Gibson, B.,Greentree, A.,Jeske, J., et al, . (2022). Magnetic-field-dependent stimulated emission from nitrogen-vacancy centers in diamond In: Science Advances, 8, 1 - 9
- Luo, T.,Lindner, L.,Blinder, R.,Capelli, M.,Langer, J.,Cimalla, V.,Hahl, F.,Vidal, X.,Jeske, J. (2022). Rapid determination of single substitutional nitrogen N s 0 concentration in diamond from UV-Vis spectroscopy In: Applied Physics Letters, 121, 1 - 6
- Li, S.,Bai, D.,Capelli, M.,Sun, Q.,Vahid, S.,Simpson, D.,Foster, S.,Ebendorff-Heidepriem, H.,Gibson, B.,Greentree, A. (2021). Preferential coupling of diamond NV centres in step-index fibres In: Optics Express, 29, 14425 - 14437
- Yun, G.,Richardson, J.,Capelli, M.,Gibson, B.,Reineck, P., et al, . (2020). The Biomolecular Corona in 2D and Reverse: Patterning Metal-Phenolic Networks on Proteins, Lipids, Nucleic Acids, Polysaccharides, and Fingerprints In: Advanced Functional Materials, 30, 1 - 8
- Capelli, M.,Abe, H.,Ohshima, T.,Johnson, B.,Simpson, D.,Jeske, J.,Greentree, A.,Reineck, P.,Gibson, B. (2020). The effect of nitrogen concentration on quantum sensing with nitrogen-vacancy centres In: Biophotonics Australasia 2019, Melbourne, Australia, 8-12 December 2019
- Capelli, M.,Heffernan, A.,Ohshima, T.,Abe, H.,Jeske, J.,Hope, A.,Greentree, A.,Reineck, P.,Gibson, B. (2019). Increased nitrogen-vacancy centre creation yield in diamond through electron beam irradiation at high temperature In: Carbon, 143, 714 - 719
- Reineck, P.,Trindade, L.,Havlik, J.,Stursa, J.,Heffernan, A.,Elbourne, A.,Orth, A.,Capelli, M.,Cigler, P.,Simpson, D.,Gibson, B. (2019). Not all fluorescent nanodiamonds are created equal: A comparative study In: Particle & Particle Systems Characterization, 36, 1 - 13
- Capelli, M.,Reineck, P.,Lau, D.,Orth, A.,Jeske, J.,Doherty, M.,Ohshima, T.,Greentree, A.,Gibson, B. (2017). Magnetic field-induced enhancement of the nitrogen-vacancy fluorescence quantum yield In: Nanoscale, 9, 9299 - 9304
- Quantum Diamond-based Geophysical Sensor Technology. Funded by: Rio Tinto Australia-Japan Collaboration Program from (2020 to 2022)