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Dr Michael Cooke, MPhys, PhD
Senior Experimental Officer in the Department of Engineering
Research Groups
Department of Engineering
Research Interests
- Flexible Electronics
- Magnetic Devices
- Microfluidic Devices
- Microscale / Nanoscale Device Fabrication
- Organic and Inorganic Electronics
- Paper Electronics
- Thin Film Deposition
Publications
Journal Article
- Lees, Rhiannon, Cooke, Michael, Balocco, Claudio & Gallant, Andrew (2019). Computer Aided Patterning Design for Self-Assembled Microsphere Lithography (SA-MSL). Scientific Reports 9: 12849.
- Tao, R., Wang, W.B., Luo, J.T., Hasan, S., Torun, H., Canyelles-Pericas, P., Zhou, J., Xuan, W.P., Cooke, M., Gibson, D., Wu, Q., Ng, W.P., Luo, J.K. & Fu, Y.Q. (2019). Thin film flexible/bendable acoustic wave devices: Evolution, hybridization and decoupling of multiple acoustic wave modes. Surface and Coatings Technology 357: 587-594.
- Tao, R., Hasan, S.A., Wang, H.Z., Zhou, J., Luo, J.T., McHale, G., Gibson, D., Canyelles-Pericas, P., Cooke, M.D., Wood, D., Liu, D., Wu, Q., Ng, W.P., Franke,T. & Fu, Y.Q. (2018). Bimorph material/structure designs for high sensitivity flexible surface acoustic wave temperature sensors. Scientific Reports 8: 9052.
- Cooke, M.D. & Wood, D. (2015). Fabrication of micron scale metallic structures on photo paper substrates by low temperature photolithography for device applications. Journal of Micromechanics and Microengineering 25(11): 115017.
Media Contacts
Available for media contact about:
- Engineering: Organic TFT Backplanes
- Electronics: Organic TFT Backplanes
- Engineering: Microscale and Nanoscale Devices
- Electronics: Microscale and Nanoscale Devices