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个人简介
I completed my PhD in Applied and Plasma Physics from the University of Sydney. As a Research Associate in Physics and Biomedical engineering, I am actively engaged in multidisciplinary research that spans the fields of physics, chemistry, biology, and engineering. My primary research focus revolves around enhancing the biointerface, where biological systems interact with materials, through the utilization of plasma surface treatments. I possess expertise in modifying a diverse range of materials, ranging from carbon-containing polymers to non-polymeric substances. Through plasma surface treatments, I am able to control surface properties, such as wettability, roughness, electrical conductivity and biomolecule attachment. My goals are helping researchers improving their assays by implementing plasma technologies.
Throughout my career, I have achieved notable success in numerous projects where plasma surface treatments have been instrumental. Some key highlights include:
- Immobilization of enzymes and yeast cells for bioethanol production, enabling a continuous ethanol production process from cellulose.
- Immobilization of DNA for medical diagnostics, facilitating enhanced detection and analysis of genetic markers and diseases.
- Plasma functionalization of magnetic particles for cell sorting, enabling precise and efficient separation of specific cell populations for research and medical applications.
- Plasma functionalization of catheters for antimicrobial peptide attachment, contributing to the development of advanced medical devices with enhanced infection resistance.
- Plasma functionalization of glass for cell culture improvement, promoting covalent adhesion of extracellular matrix proteins and growth factors for cell growth and differentiation.
- Plasma functionalization of well plates for ELISA and cell culture, enhancing the performance and reliability of these essential tools in biomedical research and diagnostics.
研究兴趣
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INVESTIGATIVE OPHTHALMOLOGY & VISUAL SCIENCEno. 8 (2023)
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Coatingsno. 1085 (2021): 1085
eLife (2021)
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