Project aims to give new lease of life to batteries and critical elements

Project aims to give new lease of life to batteries and critical elements

Researchers are leading a project that aims to develop a new method of recycling critical elements from electronic devices, reducing waste and ensuring a new lease of life for old smartphone and vehicle batteries along with other rare elements.

Academics at the University of Aberdeen’s Department of Chemistry have received a £140,000 award from the AXA Research Fund for the project, which seeks to develop a sustainable electrochemical recycling route by investigating the potential use of neoteric (green) solvents.

Combined with the use of a flow electrochemical cell that will be designed and engineered to extract the elements, the aim is to make separation and recovery of critical and rare earth elements efficient, safer, and cleaner – allowing for the creation of a sustainable recycling route.

If successful, it could have a significant impact in reducing electrical and electronic equipment waste. 

According to a 2019 UN report, the world produces as much as 50 million tonnes of electronic and electrical waste a year, but only 20% of this is recycled.

Dr Haytham Hussein from the University’s Department of Chemistry is leading the project.

He said: “Critical and rare raw elements are essential in our modern society, powering industry, homes and our personal devices but this has resulted in the rapid and unsustainable growth in electrical and electronic equipment waste.

“Global accessibility to these vital resources poses a significant challenge due to their rapidly increasing demand and ever-decreasing supply, but the international use of critical resources is expected to continue surging.

“This means that it is essential to discover and develop efficient recovery methods of elements from waste to enable the transition to a sustainable circular economy.

“This will reduce waste and it could also reduce demand for these elements from countries where child labour is used in the mining industry.”

Dr Hussein added: “Our two-year project aims to develop a sustainable recycling route for elements recovery from batteries and electronic waste for further reuse, utilising tailored green solvents and an innovative experimental approach based on a flow electrochemical cell and electrically conductive synthetic diamond.

“If proven, it has the potential for commercialisation and the creation of a valuable, secondary raw stream for urban mining and recycling that could play a significant role in the sustainable economy.”

Search News

Browse by Month

2024

  1. Jan
  2. Feb
  3. Mar
  4. Apr
  5. May There are no items to show for May 2024
  6. Jun There are no items to show for June 2024
  7. Jul
  8. Aug
  9. Sep
  10. Oct
  11. Nov There are no items to show for November 2024
  12. Dec There are no items to show for December 2024

2022

  1. Jan
  2. Feb
  3. Mar
  4. Apr
  5. May There are no items to show for May 2022
  6. Jun
  7. Jul
  8. Aug
  9. Sep
  10. Oct
  11. Nov
  12. Dec

2016

  1. Jan There are no items to show for January 2016
  2. Feb
  3. Mar There are no items to show for March 2016
  4. Apr There are no items to show for April 2016
  5. May There are no items to show for May 2016
  6. Jun There are no items to show for June 2016
  7. Jul There are no items to show for July 2016
  8. Aug There are no items to show for August 2016
  9. Sep
  10. Oct
  11. Nov
  12. Dec

2015

  1. Jan There are no items to show for January 2015
  2. Feb There are no items to show for February 2015
  3. Mar There are no items to show for March 2015
  4. Apr There are no items to show for April 2015
  5. May There are no items to show for May 2015
  6. Jun
  7. Jul There are no items to show for July 2015
  8. Aug There are no items to show for August 2015
  9. Sep There are no items to show for September 2015
  10. Oct There are no items to show for October 2015
  11. Nov There are no items to show for November 2015
  12. Dec There are no items to show for December 2015

2014

  1. Jan There are no items to show for January 2014
  2. Feb
  3. Mar
  4. Apr
  5. May
  6. Jun
  7. Jul There are no items to show for July 2014
  8. Aug There are no items to show for August 2014
  9. Sep There are no items to show for September 2014
  10. Oct There are no items to show for October 2014
  11. Nov
  12. Dec There are no items to show for December 2014

2013

  1. Jan
  2. Feb
  3. Mar
  4. Apr There are no items to show for April 2013
  5. May
  6. Jun
  7. Jul There are no items to show for July 2013
  8. Aug There are no items to show for August 2013
  9. Sep
  10. Oct
  11. Nov
  12. Dec There are no items to show for December 2013

2012

  1. Jan
  2. Feb
  3. Mar
  4. Apr
  5. May
  6. Jun There are no items to show for June 2012
  7. Jul There are no items to show for July 2012
  8. Aug There are no items to show for August 2012
  9. Sep
  10. Oct
  11. Nov
  12. Dec

2011

  1. Jan There are no items to show for January 2011
  2. Feb There are no items to show for February 2011
  3. Mar There are no items to show for March 2011
  4. Apr
  5. May There are no items to show for May 2011
  6. Jun There are no items to show for June 2011
  7. Jul There are no items to show for July 2011
  8. Aug There are no items to show for August 2011
  9. Sep There are no items to show for September 2011
  10. Oct
  11. Nov There are no items to show for November 2011
  12. Dec There are no items to show for December 2011