Professor Adam Micolich
Ph.D. in Physics, UNSW, 2001; B. Sc. (Hons) in Physics, UNSW, 1997.
Adam works on the development of nanoscale electronic devices for applications in bioelectronics. This includes work on the development of microscopy-capable nanoelectronics for simultaneous optical/electrical study of biomolecules and devices and circuits for ion-to-electron signal transduction. He also has interests in mixed conductivity systems where both ions and electrons contribute to conduction and device function. He has been working at UNSW since 2002, previously as an ARC Postdoctoral Fellow (2003 - 2006) and ARC Future Fellow (2010 - 2014) in the School of Physics. Adam has over 100 refereed research publications in areas ranging from physics to education research, and has recently co-edited two books on nanotechnology research in Australia.
- Publications
- Media
- Grants
- Awards
- Research Activities
- Engagement
- Teaching and Supervision
- ARC Discovery Projects DP23: "Reading the sequence of a single molecule of DNA", L. Lee & A.P. Micolich.
- NZ Royal Society Marsden Fund 2021: "How the nose knows? -- Understanding the mechanisms in insect olfactory biosensor devices", N. Plank (VU Wellington), C. Carraher (NZ Plant & Food), A.P. Micolich.
- ARC Discovery Projects DP21: "Seeing is believing: Microscopy-capable single-molecule bioelectronics", A.P. Micolich, H. Noji (U. Tokyo), P. Meredith (Swansea U.), N. Plank (VU Wellington), H. Linke (Lund), S. Diez (TU Dresden).
- JSPS Long-term Invitational Fellowship 2019: "Nanowire transistor devices for single-molecule analysis of proton-pumping by biomolecular motors", H. Noji (U. Tokyo).
- ARC Discovery Projects DP17: "Bioelectronic logic", A.P. Micolich, P. Meredith (Swansea U.), C. Prinz (Lund U.).
- ARC Discovery Projects DP17: "Building up quantum electronics with tailored semiconductor nanostructures", A.P. Micolich & P. Caroff (ANU).
- ´³³§±Ê³§Ìý (Jun-Dec 2019).
- ´¡±Ê³§ÌýÌý(2016)
- ARC Future Fellowship (2010 - 2013)
- NSW Royal Society Ìý(2008)
- ±·³§°Â/´¡°ä°ÕÌýÌý(2006)
- Development of nanoscale electronics for single-molecule biophysics experiments.
- Electronic properties of soft ionically-active materials for device applications (e.g., polymer electrolytes, ion gels).
- Electronic properties of semiconductor nanowires and nanowire transistors.
My Research Supervision
Two Ph.D. Students & one Postdoctoral Researcher.
My Teaching
Currently teaching:
- PHYS2111 Quantum Physics (T1 2024)
- PHYS2113 Classical Mechanics (T2 2023)