A analysis crew has developed a course of know-how that permits ultrafast, 30-second preparation of onerous carbon anodes for sodium-ion batteries utilizing microwave induction heating.
One of many next-generation secondary batteries, the sodium-ion battery makes use of sodium (Na) in lieu of the present mainstay, lithium (Li). Sodium, the primary element of salt, is greater than a thousand instances extra considerable than lithium and is simpler to extract and refine. Moreover, its decrease reactivity in comparison with lithium means better electrochemical stability when used for batteries, making it extra favorable for quick charging and discharging, whereas sustaining efficiency even at low temperatures.
Regardless of these benefits, sodium-ion batteries face vital challenges, together with decrease power density and shorter lifespan in comparison with lithium-ion batteries as a result of complexity of the manufacturing course of. The bigger measurement of sodium ions in comparison with lithium necessitates using onerous carbon, which has a bigger interlayer spacing than graphite, the present mainstay of anode supplies.
Onerous carbon just isn’t present in nature and due to this fact have to be synthesized. The preparation course of is extremely intricate, requiring hydrocarbon supplies—important elements of crops and polymers—to be heated in an oxygen-free atmosphere at temperatures exceeding 1,000°C for prolonged intervals. This “carbonization” course of is each economically and environmentally burdensome, which has been a key impediment to the commercialization of sodium-ion batteries.
Among the many many groups attempting to deal with this problem, the crew led by Dr. Kim and Dr. Park proposed a fast heating methodology utilizing microwave know-how, which we will simply discover from a microwave oven within the kitchen. They first created movies by mixing polymers with a small quantity of extremely conductive carbon nanotubes. They then utilized a microwave magnetic area to the movies to induce currents within the carbon nanotubes, selectively heating the movies to over 1,400°C in simply 30 seconds.
By means of years of analysis, KERI has developed a know-how to uniformly heat-treat conductive skinny movies, resembling metals, utilizing microwave magnetic fields. This know-how has attracted appreciable consideration in industrial processes resembling shows and semiconductors. KERI’s Nano Hybrid Know-how Analysis Middle is acknowledged because the nation’s main middle for carbon nanomaterials know-how. Dr. Kim and Dr. Park leveraged the middle’s capabilities to enterprise into sodium-ion battery anode supplies and achieved promising outcomes.
The important thing to their success lies within the crew’s personal “multiphysics simulation” approach. It allowed them to have a profound understanding of the complicated processes occurring when an electromagnetic area within the microwave bandwidth is utilized to nanomaterials, resulting in the creation of a novel course of for getting ready sodium-ion battery anode supplies.
The examine is printed within the Chemical Engineering Journal. The paper was co-first-authored by Geongbeom Ryoo and Jiwon Shin, pupil researchers who participated in KERI’s academia-research collaborative analysis program.
“Due to recent electric vehicle fires, there has been growing interest in sodium-ion batteries that are safer and function well in colder conditions. However, the carbonization process for anodes has been a significant disadvantage in terms of energy efficiency and cost,” stated Dr. Jong Hwan Park. Dr. Daeho Kim added, “Our microwave induction heating technology enables fast and easy preparation of hard carbon, which I believe will contribute to the commercialization of sodium-ion batteries.”
Transferring ahead, the crew plans to proceed working to enhance the efficiency of their anode supplies and develop know-how for the continual mass manufacturing of large-area onerous carbon movies. In addition they see the potential of their microwave induction heating know-how relevant to different fields, resembling all-solid-state batteries that require high-temperature sintering, which warrants additional analysis.
KERI, having already accomplished a home patent utility, expects this know-how to draw vital curiosity from firms concerned in power storage supplies and anticipates know-how switch offers with potential trade companions.
The crew was led by Dr. Daeho Kim and Dr. Jong Hwan Park on the Nano Hybrid Know-how Analysis Middle of the Korea Electrotechnology Analysis Institute (KERI).
Extra info:
Gyeongbeom Ryoo et al, Sub-minute carbonization of polymer/carbon nanotube movies by microwave induction heating for ultrafast preparation of onerous carbon anodes for sodium-ion batteries, Chemical Engineering Journal (2024). DOI: 10.1016/j.cej.2024.154081
Nationwide Analysis Council of Science and Know-how
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A fast and straightforward solution to produce anode supplies for sodium-ion batteries utilizing microwaves (2024, October 11)
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