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Found 4 matching student topics

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Development of functional, nanostructured materials

In this project, we are looking to develop:a highly sensitive and selective metal oxide thin film gas sensing devicean efficient and stable perovskite solar cell using metal oxide thin films.

Study level
PhD, Master of Philosophy
Faculty
Science and Engineering Faculty
Lead unit
Science and Engineering Faculty

Organic thin film transistors for biosensing and bioelectronics

Organic Field Effect Transistors (OFETs) have the potential to offer low cost, easy to use and printable sensors for a variety of applications such as chemical sensing, explosive sensing, biomedical sensing, etc. OFETs are highly sought after for developing non-invasive sensing technologies for continuous monitoring or diagnostic applications.For example, it has been shown that OFETs can detect the levels of glucose in saliva of diabetic patients and therefore have the potential to have life changing impacts on patients by moving …

Study level
Honours, Vacation research experience scheme
Faculty
Science and Engineering Faculty
Lead unit
Science and Engineering Faculty

Organic thin film transistors for sensors, bioelectronic interfaces and bionics

Organic electronic devices are flexible, light weight and stretchable. This makes them an ideal candidate for integrating and interfacing with soft tissues in biological systems.Particularly, organic thin film transistors (OTFTs) have the potential to offer low cost, easy-to-use and printable sensors for a variety of applications such as chemical sensing and explosive sensing. Additionally, OTFTs have shown great promise for applications in biosensing and interaction with the biological world. This project aims to explore OTFTs and develop OTFT designs for …

Study level
PhD, Master of Philosophy, Honours, Vacation research experience scheme
Faculty
Science and Engineering Faculty
Lead unit
Science and Engineering Faculty

Synthesis of thin film composite membranes with high salt rejection for desalination

The aim of this project is to create a very thin layer of polyamide on ultrafiltration membrane supports. Ultrafiltration membranes will be fabricated and examined in laboratory scale mimicking virus removal process in the water industry.

Study level
PhD, Master of Philosophy, Honours
Faculty
Science and Engineering Faculty
Lead unit
Science and Engineering Faculty

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