Dr. James Wang
Senior Research Fellow
- Areas:
-
Industrial Research Institute Swinburne
Centre for Atom Optics and Ultrafast Spectroscopy
Laser and Plasma Deposition Technologies - Office:
- ATC830
- Phone:
- +61 3 9214 8657
- Fax:
- +61 3 9214 5050
- E-Mail:
- jawang@swin.edu.au
- Campus:
- Hawthorn
Swinburne University of Technology
PO Box 218
Hawthorn, Victoria, 3122
Australia
Supervision of higher degree by research (HDR) (Current students)
| Name | Degree | Research Centre | Start year | Role | Institution | ||
|---|---|---|---|---|---|---|---|
| Mahsa Esfahani | PhD | IRIS | 2010 | Associate Supervisor | Swinburne | ||
Topics for Prospective Ph.D Students - View ALL topics for Dr. James Wang
Manufacture of Nanostructured Materials by Sol Gel MethodsSol gel methods will be employed to create deposits and bulk materials that have controlled nano-structured attributes
Influence of Nanoscale Surface Characteristics of Nanostructrured Calcium Phosphate coatings on Bacterial Retention
The objective of this study is to investigate whether nanoscale surface characteristics of the nanostructured calcium phosphate coatings affect the non-specific attachment of some bacterial species.
Microstructure, Morphology, Surface Adhesion Strength, and Biosolubility of Nanostructured Calcium Phosphate Coatings on Austenitic Stainless Steel
The objective of this study is to investigate microstructure, morphology, surface adhesion strength, and biosolubility of nanostructured calcium phosphate coatings prepared onto austenitic stainless steel either by eletro-deposition or high vacuum sputtering deposition technique.
Development of new biocompatible shape memory alloy implant materials
This project will develop new biocompatible shape memory alloys, alloy scaffolds and composite materials for implant applications.
Multimodal Nanostructured Metals and Alloys
The aim of this project is to develop the science that will facilitate the development of new advanced multimodal nanostructured metals and alloys with a unique combination of high tensile ductility, high strength and excellent fracture toughness.
Novel nanolaminates produced sputtering with specific material properties
The aim of this project is to develop novel nanolaminates materials with specific material properties such as exceptional high mechanical strength, hardness and elastic modulus, extremely low thermal conductivity, high surface quality, and excellent corrosion resistance and so on.