How Cold Sintering Can Help Battery Recycling

The dry process may rescue battery components, plastics, and ceramics from landfills.

Kristen Kazarian, Managing Editor

May 15, 2024

4 Min Read
Cold sintering can help battery recycling and more
Cold-sintering can extend reuse for batteries, plastics, and ceramics.Zigmunds Dizgalvis / iStock / Getty Images Plus via Getty Images

Cold sintering — the process of combining powder-based materials into dense forms at low temperatures through applied pressure using solvents — allows for materials to be recycled again and again. 

“That’s the idea with cold sintering: You can take two or more materials that were destined for the landfill, combine them and create a composite, and recycle the composite again and again, without a loss in performance,” said Enrique Gomez, interim associate dean for equity and inclusion and professor of chemical engineering for the Penn State College of Engineering.

In three recent papers, Gomez and his team outline three new uses for cold sintering that advance recycling in materials science.

Plastics/Ceramics

In a paper published in Materials Horizons, researchers used cold sintering to combine polypropylene — a common waste plastic that is hard to recycle due to issues with processing and sorting — with a ceramic material. The result was a composite that could be used to make structural building materials like drywall or outdoor decks. 

“Cold sintering plastic with ceramic materials produces strong, tough composites perfect for use in construction,” said Po-Hao Lai, a doctoral student in chemical engineering and first author on the paper. “These composites can undergo multiple recycling cycles with only the addition of water, offering lower energy and water demands compared to conventional construction materials.” 

Additionally, traditional recycling often leads to downcycling, where the quality of the material decreases with each recycling cycle, causing loss of valuable properties, according to researchers. By combining plastic waste with ceramics into composites, the method not only addresses the limitations of mechanical recycling but also overcomes the drawbacks of ceramics, such as brittleness. 

When the building materials have reached their end of life, they can be ground up again in the cold sintering process and reused. The researchers demonstrated proficiency in regrinding and cold sintering the composite up to 10 times. 

“If you redo your deck using these materials, and then decide you want to change its design, you can simply recover it, grind and cold sinter it, and remake it into something else, like a porch or a bench,” said Bryan Vogt, professor of chemical engineering and co-corresponding author on the Materials Horizons paper.

Battery

In a study published in ChemSusChem, researchers applied cold sintering to the solid and liquid electrolyte components of solid-state batteries. Solid-state lithium batteries are energy-dense, safe, nonflammable and can be used in electric vehicles, wearable devices or laptop batteries. 

“Defects in batteries, such as voids and cracks caused by mechanical stress on the solid-state electrolytes in batteries, may block lithium-ion transport pathways and lead the battery to short circuit,” said Yi-Chen Lan, doctoral student in chemical engineering and first author on the paper. “To recycle electrolytes that have undergone mechanical degradation, we use cold sintering to re-densify the microstructures and reprocess composite electrolytes by mixing ceramics with polymers and lithium salts.” 

The idea for cold sintering the liquid electrolytes needed in solid-state batteries came about in 2018, when a postdoctoral scholar in the Gomez Group accidently broke a sample of liquid electrolyte during an experiment.

“He decided to reprocess the electrolyte sample through cold sintering, and we found out it worked just as well after being reprocessed,” Gomez said. “We didn’t realize at the time that this was a concept we could exploit, and that was the birth of this paper.”

Reprocessing and reusing the electrolytes used in these batteries leads to lower energy consumption and a lesser environmental impact over time, which in turn promotes the viability and sustainability of all solid-state battery types, according to Lan.

In a paper published in MRS Communications, researchers cold-sintered a composite that goes into capacitors, which are important components of electric vehicles. In the experiments, they combined the ceramic barium titanate with Teflon, or polytetrafluoroethylene.  

“Our work in MRS Communications demonstrates the potential for recycling materials that will be crucial for the electrification of transportation, and therefore the reduction of greenhouse gases,” said Hongtao Sun, assistant professor of industrial and manufacturing engineering and co-corresponding author on the paper. 

Cold sintering was developed in 2016 by a team of researchers led by Clive Randall, director of Penn State’s Materials ResearchInstitute  and distinguished professor of materials science and engineering.

"We are now seeing many other research groups adopt the cold sintering process all over the world in universities, national labs and even within industry," Randall said. "I have been amazed by the diversity of applications that are emerging, but the research in the Gomez Group establishes a path for a circular economy, an extremely important strategy that is required for a sustainable future."

In addition to Gomez, Lai, Vogt, Lan, and Sun, co-authors of the papers are all affiliated with Penn State and include students in chemical engineering, materials science and engineering,  industrial and manufacturing engineering; Masoud Ghasemi, postdoctoral associate in chemical engineering and materials science and engineering; Amir Sheikhi, assistant professor and Dorothy Foehr Huck and J. Lloyd Huck early career chair in Biomaterials and Regenerative Engineering; and Rui Shi, assistant professor of chemical engineering. 

The US National Science Foundation and the American Chemical Society Petroleum Research Fund supported the work.  

About the Author(s)

Kristen Kazarian

Managing Editor

Kristen Kazarian has been a writer and editor for more than three decades. She has worked at several consumer magazines and B2B publications in the fields of food and beverage, packaging, processing, women's interest, local news, health and nutrition, fashion and beauty, automotive, and computers.

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