UNSW Scientia associate professor Xiaojing Hao has been named the winner of the Malcolm McIntosh Prize for Physical Scientist of the Year, one of three major awards at the 2020 Prime Minister’s Prizes for Science.

The prizes – Australia’s most prestigious awards for outstanding achievements in scientific research, research-based innovation and excellence in science teaching – were announced during an online event.

Hao has been recognised for her work in thin-film photovoltaics, a field focused on the direct conversion of sunlight into electric power.

She says she was honoured to be recognised in the Prime Minister's Prizes for Science.

“This recognition is not only for my work, but for my group's work at UNSW. It is great to be able to put a spotlight on our research and promote our achievements,” she says.

Hao initiated a new line of research in photovoltaics at UNSW, using emerging, earth-abundant and non-toxic thin-film material known as ‘sulphide kesterite’ (or Copper Tin Zinc Sulphide) to make solar cells. It's changing the way the world thinks about producing renewable solar energy.

Kesterite cells act much like the traditional silicon solar panels in widespread use today. However, they don’t use any of the toxic or scarce elements found in non-silicon thin-film solar offerings currently seen in commercial environments.

While silicon is an almost ideal material for solar photovoltaics, there is a need for similar environmentally friendly thin-film materials such as kesterite. These ‘green’ materials can be used in applications that are not well suited to silicon solar cells (e.g. coatings on buildings or on the bodywork of solar vehicles) or can be stacked on top of standard silicon cells to boost their power output.

Hao’s work has been driven by her keen awareness that our current and future renewable energy demands will only be met with a wide-scale and significant increase in the use of photovoltaics. Her world-leading achievements have brought the performance of this environmentally friendly technology closer to being commercially viable.

“The purpose of my work is to squeeze more electricity out of sunlight, using thin-film solar cell technologies. One of my main desires is to create ‘green’ solar cells out of materials that are not scarce or toxic. This will reduce our greenhouse gas emissions and result in a better, cleaner life for us and our planet,” she says.

Hao will receive $50,000 in prize money for the award.

Image: UNSW