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Polymer power: Incheon National University researchers enhance the safety of lithium batteries

They use a graft polymerization technique to develop robust separators for thermally stable and long-lasting lithium-ion batteries

Polymer power: Incheon National University researchers enhance the safety of lithium batteries
2024-01-25
(Press-News.org)

Lithium-ion batteries are a widely used class of rechargeable batteries in today’s world. One of the processes that can hamper the functioning of these batteries is an internal short circuit caused by direct contact between the cathode and anode (the conductors that complete the circuit within a battery). To avoid this, separators composed of polyolefins—a type of polymer— can be employed to maintain separation. However, these separators can melt at higher temperatures, and the inadequate absorption of electrolytes (essential for conveying charges between electrodes) can result in short circuits and diminished efficiency. To tackle these issues, several different methods have been proposed.

One such method is to apply ceramic coatings on the separators to improve the way they handle pressure and heat. However, this can increase the thickness of the separators, reduce their adhesion, and harm battery performance. Another technique is to use polymer coatings, in a process known as graft polymerization. This involves the attachment of individual units (monomers) to the separators to give them the desired qualities.

Now advancing research, a recent study published in Energy Storage Materials now demonstrates successful graft polymerization on a polypropylene (PP) separator, incorporating a uniform layer of silicon dioxide (SiO2). The research results of the joint study conducted by a team of researchers, including Assistant Professor Jeongsik Yun from the Department of Energy and Chemical Engineering at Incheon National University, were made available online on December 13, 2023, and featured in Volume 65 of Energy Storage Materials in February 2024.

Dr. Yun was motivated by the need for high-performance battery materials in electric vehicles to achieve longer driving ranges, an area he has been actively working on. Beyond improving battery performance, his goal is to ease consumer concerns about battery explosions, potentially influencing their decisions to embrace electric vehicles. According to him, “Battery explosions are frequently initiated from the melting of a separator. The commercial battery separator is made of polyolefins, a class of polymers which are vulnerable to heat. We therefore aimed to improve the thermal stability of the commercial separators by coating them with thermally robust materials such as SiO2 particles.”

In this study, a PP separator was modified in several ways. Initially, it was coated with a layer of polyvinylidene fluoride, a chemical chosen to enhance electrolyte affinity and thermal stability, while also introducing grafting reaction sites. Then, the separator underwent grafting with methacrylate molecules, followed by a final coating with SiO2 particles. These modifications made the separator stronger and more resistant to heat, suppressed the growth of lithium dendrites, and helped improve the cycling performance.

Furthermore, the modifications not only preserved the energy storage of Li-ion batteries per unit volume, but also outperformed other coating methods in cell performance. This technique thus shows promise for creating robust separators and advancing the use of lithium-ion batteries in electric vehicles and energy storage systems.

“We hope that the results of this study can enable the development of high-safety lithium batteries. We believe that the thermal stability of these batteries will greatly benefit the current fire-sensitive electric vehicle field. In the long term, this can motivate people to choose electric vehicles and in urban areas, reduce the suffering of people from breathing in the polluted air generated by the internal combustion engines,” envisions Dr. Yun.

In summary, this study presents a reliable method for creating an innovative and durable separator for lithium-ion batteries, potentially paving the way for a greener future!

 

***

 

Reference

 

DOI: https://doi.org/10.1016/j.ensm.2023.103135

 

Authors: Jaewon Park1, Young Je Kwon1, Jeongsik Yun2, Kaiyun Zhang1, Min Jeong Lee1, Gyeong Min Choi1, Ji woo Bae1, Se Hun Kim1, Joon Ha Chang3, Min Wook Pin3, Jin Hong Lee4, Hoik Lee5, and Kie Yong Cho1

 

Affiliations:     

1Department of Industrial Chemistry, Pukyong National University

2Department of Energy and Chemical Engineering, Incheon National University

3Analysis and Assessment Research Center, Research Institute of Industrial Science and Technology (RIST)

4School of Chemical Engineering, Pusan National University

5Research Institute of Convergence Technology, Korea Institute of Industrial Technology

 

About Incheon National University
Incheon National University (INU) is a comprehensive, student-focused university. It was founded in 1979 and given university status in 1988. One of the largest universities in South Korea, it houses nearly 14,000 students and 500 faculty members. In 2010, INU merged with Incheon City College to expand capacity and open more curricula. With its commitment to academic excellence and an unrelenting devotion to innovative research, INU offers its students real-world internship experiences. INU not only focuses on studying and learning but also strives to provide a supportive environment for students to follow their passion, grow, and, as their slogan says, be INspired.

Website: http://www.inu.ac.kr/mbshome/mbs/inuengl/index.html

 

About the author
Prof. Dr. Jeongsik Yun is an Assistant Professor in the Department of Energy and Chemical Engineering at Incheon National University. He received his Ph.D. from the Technical University of Munich in 2020. Prior to joining Incheon National University, he served as a Research Professor at Pukyong National University for 11 years and as a Senior Researcher at the Research Institute of Industrial Science and Technology for 2 years. His research interests range from lithium-ion batteries to next-generation batteries, including all-solid-state batteries, Na-ion batteries, and aqueous batteries.

END


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[Press-News.org] Polymer power: Incheon National University researchers enhance the safety of lithium batteries
They use a graft polymerization technique to develop robust separators for thermally stable and long-lasting lithium-ion batteries