Dr Scott A. Willis
Dr Scott A Willis | Manager and Reseacher, Biomedical Magnetic Resonance Facility (opens in a new window) |
Qualifications |
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Contact Details | Dr Scott A. Willis Research Manager, Biomedical Magnetic Resonance Facility Nanoscale Organisation and Dynamics Group | School of Science Centralised Research Facilities | Research Services Office of the Deputy Vice-Chancellor (Research, Enterprise and International) Campbelltown Campus - Building 17.G.06 Western Sydney University Locked Bag 1797, Penrith, NSW, 2751 AUSTRALIA E-mail: Scott.Willis@westernsydney.edu.au Phone: [+61 2] 4620 3114 |
Role
Dr Willis graduated with PhD in 2013 from WSU. His PhD was focused on developing new Brownian Ratchets using liquid crystal systems. After his PhD he completed two postdoctoral positions 2013 – 2015 and 2015 – 2017, the first with a focus on diffusion imaging in cancer tissues and the second on the development of MRI contrast agents. Since mid-2017 he has been the manager of and researcher in the Biomedical Magnetic Resonance Facility (BMRF) and a core member of the Nanoscale Organisation and Dynamics (NANO) group at the Western Sydney University (WSU). Scott’s research interests are with polymer materials and studying diffusion in anisotropic materials (e.g., lyotropic liquid crystals) but has been involved with research projects ranging from simple self-diffusion measurements to studying battery electrolytes, signal suppression and calibration methods. Aside from research positions and collaborations, Scott has supervised undergraduate classes and a Masters level unit, has given lectures to undergraduate students and visiting school groups, and has supervised and provided guidance and assistance to higher degree research students (both local and visiting international).
Publications
- S. A. Willis Publications, Presentations, Patents and Grants PDF, 177.54 KB(opens in a new window)
- Check out our Seminars and Newsletters
MicroCT images acquired on the Perkin Elmer Quantum GX MicroCT in the BMRF by Dr Scott A. Willis. Upper: 23-Million-Year-Old fossil of a Lovenia forbesi. (Sea Urchin Echinoid) from Mannum, South Australia. The white 3D rendering shows the outer surface and the orange 3D rendering shows some features inside the fossil. Lower: 3D rendered images obtained of a Red BottleBrush.
Anisotropic diffusion (root mean-squared displacement) ellipsoids measured using triple axis gradient probes in the BMRF obtained by Dr Scott A. Willis for two different anisotropic lyotropic liquid crystal systems (one a macroscopically aligned lamellar phase (upper ellipsoid – showing diffusion primarily in a plane) and the other a macroscopically aligned hexagonal phase (lower ellipsoid – showing diffusion primarily along one axis)).
Polarised optical microscopy photos of some of the different lyotropic liquid crystal systems Dr Scott A. Willis has used for experiments. Upper: Hexagonal phase system. Middle: A synthesised polymerisable surfactant in capillary tubes. Lower: A synthesised macroscopically aligned hexagonal phase template hydrogel cylinder squashed between glass slides (note the anisotropic shape with compression).
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