Potential summer scholars research projects

The Research School of Physics & Engineering performs research at the cutting edge of a wide range of disciplines.

By undertaking your own research project at RSPE you could open up an exciting career in science.

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Atomic and Molecular Physics

Electron scattering from surfaces at high energies

The project aims at establishing the possibilities of high-energy electron scattering in the analysis of thin layers. 

A/Prof Maarten Vos

Experimental determination of the Auger yield per nuclear decay

Auger electrons are emitted after nuclear decay and are used for medical purposes. The number of Auger electrons generated per nuclear decay is not known accurately, a fact that  hinders medical applications.  This project aims to obtain a experimental estimate of the number of Auger electrons emitted per nuclear decay.
 

A/Prof Maarten Vos, Dr Tibor Kibedi, Professor Andrew Stuchbery

Clean Energy

Hydrogen generation by solar water splitting using nitride-based compound semiconductors

This project aims to develop GaN-based semiconductor photoelectrodes for highly efficient solar to hydrogen generation by band bending and surface engineering at the semiconductor-electrolyte interface.

Professor Hoe Tan, Dr Siva Karuturi

Nanowire arrays for next generation high performance photovoltaics

This is an all-encompassing program to integrate highly sophisticated theoretical modelling, material growth and nanofabrication capabilities to develop high performance semiconductor nanowire array solar cells. It will lead to understanding of the underlying photovoltaic mechanisms in nanowires and design of novel solar cell architectures.

A/Prof Lan Fu, Dr Ziyuan Li, Professor Chennupati Jagadish AC

Organic-inorganic perovskite materials for high performance photovoltaics

In this project, we will characterise actual device solar cell structures with electron microscopy techniques and seek to understand the microscopic effects behind the device performance and reliability

A/Prof Jennifer Wong-Leung

Materials Science and Engineering

Hydrogen generation by solar water splitting using nitride-based compound semiconductors

This project aims to develop GaN-based semiconductor photoelectrodes for highly efficient solar to hydrogen generation by band bending and surface engineering at the semiconductor-electrolyte interface.

Professor Hoe Tan, Dr Siva Karuturi

UV nano-LEDs

Development of nanowire LEDs for small, robust and highly portable UV sources.

Professor Chennupati Jagadish AC, Professor Hoe Tan

Organic-inorganic perovskite materials for high performance photovoltaics

In this project, we will characterise actual device solar cell structures with electron microscopy techniques and seek to understand the microscopic effects behind the device performance and reliability

A/Prof Jennifer Wong-Leung

Electron scattering from surfaces at high energies

The project aims at establishing the possibilities of high-energy electron scattering in the analysis of thin layers. 

A/Prof Maarten Vos

Nanoscience and Nanotechnology

Nanowire arrays for next generation high performance photovoltaics

This is an all-encompassing program to integrate highly sophisticated theoretical modelling, material growth and nanofabrication capabilities to develop high performance semiconductor nanowire array solar cells. It will lead to understanding of the underlying photovoltaic mechanisms in nanowires and design of novel solar cell architectures.

A/Prof Lan Fu, Dr Ziyuan Li, Professor Chennupati Jagadish AC

UV nano-LEDs

Development of nanowire LEDs for small, robust and highly portable UV sources.

Professor Chennupati Jagadish AC, Professor Hoe Tan

Nanowire photodetectors - Small devices for the big world

Semiconductor nanowires are emerging nano-materials with substantial opportunities for novel photonic and electronic device applications. This project aims at developing a new generation of high performance NW based photodetectors for a wide range of applications.

A/Prof Lan Fu, Dr Ziyuan Li, Professor Hoe Tan

Visible wavelength nanowire lasers

Utilising nanowire geometry to create visible wavelength nanoscale lasers with reduced footprint, higher efficiency and lower operating powers.

Professor Chennupati Jagadish AC, Dr Sudha Mokkapati, Professor Hoe Tan

Experimental determination of the Auger yield per nuclear decay

Auger electrons are emitted after nuclear decay and are used for medical purposes. The number of Auger electrons generated per nuclear decay is not known accurately, a fact that  hinders medical applications.  This project aims to obtain a experimental estimate of the number of Auger electrons emitted per nuclear decay.
 

A/Prof Maarten Vos, Dr Tibor Kibedi, Professor Andrew Stuchbery

Photonics, Lasers and Nonlinear Optics

Nanowire photodetectors - Small devices for the big world

Semiconductor nanowires are emerging nano-materials with substantial opportunities for novel photonic and electronic device applications. This project aims at developing a new generation of high performance NW based photodetectors for a wide range of applications.

A/Prof Lan Fu, Dr Ziyuan Li, Professor Hoe Tan

Visible wavelength nanowire lasers

Utilising nanowire geometry to create visible wavelength nanoscale lasers with reduced footprint, higher efficiency and lower operating powers.

Professor Chennupati Jagadish AC, Dr Sudha Mokkapati, Professor Hoe Tan

Updated:  17 August 2017/ Responsible Officer:  Director, RSPE/ Page Contact:  Physics Webmaster