PRESS RELEASE
Highlights
- .ClearVue signs 12 month Research Agreement with the School of Photovoltaic and Renewable Energy Engineering at UNSW Sydney
- .Research Agreement to look at development of a new transparent luminescent solar concentrator using quantum dots
- .If successful, ClearVue would seek to further scale the prototype with a view to integrating the developed quantum dot technology with its existing technology and products.
20 December 2018: Smart building materials company ClearVue Technologies Limited (ASX: CPV) (“ClearVue” or“the Company”) is pleased to announce that it has signed a new Research Agreement with UNSW Sydney.
Under the terms of the binding Research Agreement, UNSW’s School of Photovoltaic and Renewable Energy Engineering will carry out contracted research on behalf of ClearVue. The research team will be led by Dr Shujuan Huang and supported by Assoc. Prof. Alison Lennon, Dr Yang Li and Dr Robert Patterson.
The research project will explore the development of a transparent luminescent solar concentrator employing quantum dots demonstrating high quantum yield photoluminescence. The project includes as a milestone development of custom quantum dot materials and a small-scale prototype. The research project is anticipated to take approximately 12 months from the date of signing.
If the research project is successful, ClearVue would seek to further scale the prototype in conjunction with UNSW with a view to integrating the developed quantum dot technology with its existing technology and products. It may also seek to offer it as a stand-alone solution for certain applications and use cases.
Commenting on the Research Agreement, ClearVue Executive Chairman Victor Rosenberg said:
“We are very excited about working with Dr Huang and the world leading team that are working with her at UNSW’s School of Photovoltaic and Renewable Energy Engineering. This new research project will explore a slightly different approach to clear solar glass – the new research will explore implementation of a different kind of nanoparticle material than the type that we currently use in our products in the form of specially developed quantum dots.
Our hope with this new research is that we may be able to combine quantum dot technology with our existing technologies – but also with the technologies being developed under our other research programs – to improve overall power output from our innovative glass products but also to explore other application opportunities. We look forward to being able to report to shareholders on progress under this project over the next 12 months.”
Commenting on the Research Agreement, Dr Shujuan Huang has said:
“Colloidal quantum dots have emerged as promising low cost and high performing materials in optoelectronics. My team at UNSW has demonstrated rapid progress in quantum dot based solar cells and light emitting diodes (LEDs). Colloidal quantum dots offer high level tunability of their optical properties and high light emission yields across the visible and NIR region. Within this exciting contracted research project, we will expand our expertise to develop colloidal quantum dot materials with these unique optical properties for high transparency and high light to power conversion efficiency solar concentrator devices via material, structure and optical design.”
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