Research Supervisor Connect
Electrochemistry plays a vital role in our daily lives, underpinning technologies such as batteries, corrosion prevention, energy and chemical conversion, as well as environmental and medical sensing. To advance these technologies and address global challenges in energy and health, we need to revolutionise how we study electrochemical processes. A completely new approach—one that enables measurements at the nanoscale—is essential for uncovering fundamental insights into electrochemical reactions and interfaces. By pushing the boundaries of electrochemical imaging and detection, we can drive breakthroughs in next-generation energy systems and ultra-sensitive sensors.
Project 1- "Next-Generation Fuel Cells: Optimising Materials for Carbon-Free Energy Conversion"
Fuel cells are pivotal to sustainable energy technologies, but their performance hinges on discovering and optimising the best materials. This project uses advanced electrochemical tools to study nanomaterials at the single-particle level, providing a detailed, statistical view of their function. By identifying and fine-tuning the most effective materials, we aim to enhance the efficiency and scalability of fuel cells for real-world applications. Students will work with state-of-the-art instrumentation, gaining invaluable experience in materials optimisation and clean energy research.
Project 2- "Single-Molecule Electrochemical Sensors: Ultra-Sensitive Detection for Environmental and Health Applications"
Electrochemical sensors are revolutionising how we detect pollutants and biological molecules. This project focuses on developing single-molecule sensors with unprecedented sensitivity and precision by integrating advanced electrochemical imaging and nanotechnology. These ultra-sensitive tools have transformative applications in water quality monitoring, disease diagnostics, and beyond, providing students with essential skills at the intersection of electrochemistry, nanotechnology, and analytical science.
These projects are part of the Australian Research Council (ARC) scheme and will be advertised on the Scholarship Office website in 2025.
- Project 1: “Next-Generation Fuel Cells: Optimising Materials for Carbon-Free Energy Conversion”
- Project 2: “Single-Molecule Electrochemical Sensors: Ultra-Sensitive Detection for Environmental and Health Applications”
Candidates will be enrolled in the School of Chemistry, Faculty of Science, and will be supervised by Dr Kaye Minkyung Kang, collaborating with leading researchers at UNSW. These projects provide opportunities to work with cutting-edge electrochemical tools, addressing critical challenges in energy, environmental, and health applications.
Notes:
- The application process is separate from applying for admission to the University of Sydney.
- The scholarship will only be awarded once the successful scholarship applicant has received an unconditional offer of admission.
- International applicants are responsible for securing any necessary visas and costs to enable study based in Sydney.
The opportunity ID for this research opportunity is 3597