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Clear glass solar panels ‘could charge mobile phones and electric cars

18 July 2019 | Story Julian Roup | Photo Leonie Bolleurs

A revolutionary new type of window glass – in effect a transparent solar panel - is the objective of joint research being done by the University of the Free State (UFS) in South Africa and Ghent University in Belgium.

A working model has been created which proves the viability of the process which now needs to be refined, made more efficient and brought to the market. It is hoped to achieve this within a decade.

This new product will have the capacity to revolutionise the generation of power cheaply from the sun to power homes, factories and cities in a new clean way.

Academics from the UFS, Prof Hendrik Swart and Lucas Erasmus are doing joint research with Ghent University in Belgium, to find solutions for energy production.

The two universities entered into an agreement recently for this research into electricity generation. The research is driven by the UFS and was prompted by ever-rising electricity prices and growing demand for electricity production. South Africa lives with constant power outages which leaves people stuck in lifts and facing chaos on the roads as traffic lights cut out. Many people who can afford them now rely on generators.

Prof Hendrik Swart, senior professor in the Department of Physics at the University of the Free State and SARChI chair (South African Research Chairs Initiative) in Solid State Luminescent and Advanced Materials, says: “An innovation like this which can help to replace traditional means of carbon based fuel for power generation in our daily lives would be hugely welcome.”

Swart explains the main objective of the research: “The idea is to develop glass that is transparent to visible light, just like the glass you find in the windows of buildings, motor vehicles and mobile electronic devices. However, by incorporating the right phosphor materials inside the glass, the light from the sun that is invisible to the human eye (ultraviolet and infrared light) can be collected, converted and concentrated to the sides of the glass panel where solar panels can be mounted.

This invisible light can then be used to generate electricity to power buildings, vehicles and electronic devices. The goal is therefore to create a type of transparent solar panel.”

Swart says this technology can be implemented in the building environment to meet the energy demands of the people inside the buildings. “The technology is also good news for the 4.7 billion cell phone users in the world, as it can be implemented in the screens of cell phones, where the sun or the ambient light of a room can be used to power the device without affecting its appearance,” he said.

Another possible application is in electric cars, where the windows can be used to help power the vehicle.

Lucas Erasmus who is working with Prof Swart adds: “We are also looking at implementing this idea into hard, durable plastics that can act as a replacement for zinc roofs. This will allow visible diffused light to enter housing and the invisible light can then be used to generate electricity. The device also concentrates the light from a large area to the small area on the sides where the solar panels are placed; therefore, reducing the number of solar panels needed and in return, reducing the cost.”

It is envisaged that the technology will take about a decade to refine and implement. This study is currently on-going, and UFS are experimenting and testing different materials in order to optimise the device in the laboratory. It then needs to be upscaled in order to test it in the field. “It is truly the technology of the future,” says
Erasmus.

The UFS envisages that the end result of this research will provide an attractive solution to address the energy demands of buildings, electric motor vehicles and mobile electronics without affecting their appearance.

According to Swart, the agreement entails a joint doctoral degree in which both universities will supervise the project and the awarding of the doctorate. Lucas Erasmus, a student at the UFS, has been tasked with the assignment to conduct research at both institutions.

News Archive

UFS receives R13,7 Million for Research into Prehistoric Organisms

2007-03-27

Some of the guests attending the launch of the research contract are: Dr Siyabulela Ntutela (Deputy Director: Biotechnology at the Department of Science and Technology), Dr Godfrey Netswera (Manager of Thuthuka and the Support Programme at the National Research Foundation (NRF)), Dr Esta van Heerden (Platform Manager and lecturer at the Department of Microbial, Biochemical and Food Biotechnology at the UFS), Mr Butana Mboniswa (Chief Executive Officer of BioPAD), and Mr Vuyisele Phehani (Portfolio Manager for BioPAD).
Photo: Leonie Bolleurs

The University of the Free State (UFS) has been awarded a massive R13,7 million contract to conduct research into prehistoric micro-organisms which live under extreme conditions, for example in mineshafts.

This is one of the biggest research contracts awarded to the UFS in recent years.

The biotechnology research contract was awarded to the UFS by BioPAD, a South African biotechnology company that brokers partnerships between researchers, entrepreneurs, business, government and other stakeholders to promote innovation and create sustainable biotechnology businesses.

The project is endorsed by the Department of Science and Technology and the National Research Foundation (NRF), which contributes to the bursaries of the 17 postgraduate students on the programme.

The contract involves the establishment of a Platform for Metagenomics - a technique which allows researchers to extract the DNA from microbes in their natural environment and investigate it in a laboratory.

“Through this platform we will be able to understand deepmine microbial populations
and their potential application in the search for life in outer space. It is most likely
that, if life were to be found on other planets in our solar system, it would probably
resemble that which existed millions of years ago on earth. Apart from all this, these
organisms have unique properties one can exploit in biotechnological application for
South Africa and its community,” said Dr Esta van Heerden, platform manager and
lecturer at the UFS Department of Microbial, Biochemical and Food Biotechnology.
She is assisted by her collegues, Prof. Derek Litthauer and Dr Lizelle Piater.

“The platform aims to tap into the unique genetic material in South African mines
which will lead to the discovery of new genes and their products. These new and unique products will find application in the medical field (anti-cancer, anti-bacterial en anti-viral cures), the industrial sector (nanotechnology, commercial washing agents and the food industry), environmental sector (pollution management, demolition of harmful metals and other toxic waste),” said Dr Van Heerden.

According to Dr Van Heerden, the Metagenomics Platforms stems from the Life in
Extreme Environments (LExEN) programme which was started in 1994 by Princeton
University in the United States of America (USA) in South African mines with grants
from among others the National Aeronautics and Space Administration (NASA) and
the National Science Foundation (NSF) in the USA. Other international collaborators
on the project include Geosynec Consultants Inc. (USA), Oak Ridge National
Laboratory (USA), the University of Tennessee (USA) and in South Africa the
Universities of the Witwatersrand, North West and Limpopo and companies like BHP
Billiton, MINTEK and mining companies like Harmony, Gold Fields and AngloGold
Ashanti.

The research field laboratory of the Metagenomics Platform, which was situated in
Glen Harvey, was moved to the Main Campus of the UFS in Bloemfontein. “In this
way the university has become the central hub for all research programmes. We are
also the liaison between the LExEN programme and the various mining companies
involved,” said Dr Van Heerden. The new laboratory was introduced during the
launch of the research contract.

“Our decision to commit BioPAD to this project stems from the company’s commitment to advance human capacity development to strengthen South Africa’s research infrastructure. It is also part of our aim to create and protect intellectual property,” said Mr Butana Mboniswa, Chief Executive Officer of BioPAD.

Talking on behalf of the UFS senior management, Prof. Teuns Verschoor, Vice-Rector
of Academic Operations, said that the university shares the excitement to be part of
the exploration of unknown forms of life, the discovery of new genes and
their products and in applying newly gained knowledge to better understand our
universe.

Media release
Issued by: Lacea Loader
Assistant Director: Media Liaison
Tel: 051 401 2584
Cell: 083 645 2454
E-mail: loaderl@ufs.ac.za
27 March 2007

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