Abstract Biodegradable artificial synapses hold great promise for sustainable neuromorphic electronics, yet combining long-term memory, ultralow energy consumption, and mechanical robustness remains challenging. Here, we report a fully biod... Read More
UNIST is featured in a branded content article published on Nature, in collaboration with Springer Nature, highlighting its research strengths in green hydrogen, AI-driven energy modeling, and industry-based innovation. Titled “How AI... Read More
Abstract Conventional studies on water electrolysis have primarily focused on designing novel electrocatalysts and membranes, with intrinsic properties closely linked to the immediate performance of water electrolyzers. However, less attent... Read More
Abstract Owing to their flexibility and cost-effectiveness, solid polymer electrolytes (SPEs) offer a promising alternative to inorganic solid electrolytes. Here, we present a highly oriented relaxor ferroelectric SPE based on a polyvinylid... Read More
Abstract Electrochemical formate (HCOO−) production via CO2 reduction reaction (CO2RR) holds great promise for carbon-neutral energy systems; however, its practical implementation is significantly hindered by the high energy demand of anodi... Read More
Abstract Ionic thermoelectric (TE) materials offer great promise for self-powered wearable electronics due to their ability to convert low-grade heat into electricity with ultrahigh thermovoltages. However, their performance remains limited... Read More
Nine faculty members from UNIST have been named to the prestigious Highly Cited Researchers (HCR) 2025 list, compiled by Clarivate Analytics—an increase of two from 2024—positioning UNIST as South Korea’s second-highest-ranked institu... Read More
UNIST successfully brought together world-renowned scientists, industry innovators, and emerging scholars for the ‘1st UNIST Electrochemistry Pioneer Symposium (UEPS 2025),’ held at UNIST from November 13 to 14, 2025. Under the... Read More
Abstract High-voltage operation of Ni-rich layered cathodes in lithium-ion batteries (LIBs) induces oxygen redox reactions, leading to singlet oxygen evolution, interfacial degradation, and electrolyte decomposition. While cathode engineeri... Read More
Abstract Propylene oxide (PO) is a key industrial chemical, often produced by epoxidizing propylene with H2O2 over titanium silicalite-1. However, current H2O2 production via the anthraquinone process relies on fossil-derived hydrogen, lead... Read More
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