Korean brought rapid charging into Reality ,battery will be fully charged in one minute

Sristi Singh By Sristi Singh - Content Writer
3 Min Read

Korean brought rapid charging into Reality , battery will be fully charged in one minute A groundbreaking advancement in battery technology has been achieved by scientists at the Korea Advanced Institute of Science and Technology (KAIST) in South Korea. They have developed a sodium battery that can be charged within mere seconds, potentially revolutionizing the field of energy storage. This innovative development promises to significantly enhance the efficiency and practicality of energy storage solutions.

Led by doctoral candidates Jong Hui Choi and Dong Won Kim, the research team’s work has been published in the journal Energy Storage Materials. Their innovation utilizes sodium, an element that is both abundant and more cost-effective than lithium, which is currently the primary material used in battery technology.

Professor Jeung Ku Kang led the team in integrating materials commonly utilized in battery anodes with those employed in supercapacitor cathodes. This novel amalgamation allows the battery to efficiently store substantial energy quantities while enabling swift charging and discharging capabilities.

The growing demand for cost-effective energy storage solutions across diverse sectors, such as mobile devices, electric vehicles, and large-scale grid systems, suggests that sodium-ion batteries may emerge as a feasible substitute for lithium-ion batteries. However, it’s acknowledged that sodium-ion batteries encounter hurdles concerning rechargeability and power density.
Nevertheless, researchers are actively addressing these constraints by pursuing advancements in sodium-ion hybrid energy storage cells.
Their objective is to augment efficiency and dependability, thereby paving the way for even more effective energy storage solutions in the foreseeable future.
An overarching advantage of the widespread adoption of this technology lies in its potential to significantly bolster the electric vehicle (EV) industry. As a result, there would be a notable reduction in the number of gas-powered vehicles on the roads, leading to a substantial improvement in air quality.
This, in turn, would contribute to mitigating respiratory ailments such as asthma, given that EVs do not emit harmful tailpipe pollutants. Moreover, the transition to EVs by a larger segment of the population would aid in curtailing the perilous escalation of global temperatures caused by greenhouse gas emissions. Consequently, this breakthrough holds considerable promise for both human health and planetary well-being.
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By Sristi Singh Content Writer
I'm Sristi Singh, an expert in computer technology and AI. Adhering to Google's E-A-T policy, I ensure authoritative content. As a Computer Science Engineer with a journalism degree, I excel in conveying complex tech trends in an engaging manner. My dedication reflects in bridging the gap between intricate technology and my audience.
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