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
Abstract Nitrous oxide (N2O) is one of the top three greenhouse gases, together with carbon dioxide and methane, but it is stable enough not to be easily decomposed under thermocatalytic conditions, even at high temperature (445 °C). Herein... Read More
Abstract Achieving a comprehensive understanding of battery systems necessitates multi-length scale analysis, from the atomic- to macro-scale, to grasp the complex interplay of phenomena influencing performance. However, studies to understa... Read More
![[UNISTar Success Stories] UNIST Alumni Leads Development of Solar Hydrogen Panels at NREL](https://news.unist.ac.kr/wp-content/uploads/2025/10/Main-DR-Dharmesh-Hansora-800x448-216x122.jpg)
《Editor’s Note: Great innovations begin with bold and ambitious ideas. At UNISt, we provide a platform where scientific and techological visions become reality. By bringing together leading researchers from around the world and Korea... Read More
Abstract Structurally colored colloids, or photonic pigments, offer a sustainable alternative to conventional dyes, yet existing systems are constrained by limited morphologies and complex synthesis. In particular, achieving angle-independe... Read More
Abstract Ammonia (NH3) has emerged as a promising hydrogen (H2) carrier thanks to its high hydrogen content (17.6 wt %) and easy liquification. However, conventional NH3 cracking requires high temperatures (400–600 °C) and additional gas se... Read More
Abstract Graphite remains the most widely used anode material for lithium-ion batteries (LIBs). However, improvements are essential to meet the demand for high-performance anodes in full-cell configurations. Here, the synergistic electroche... Read More
Abstract Liquid-state 4-tert-butylpyridine is essential for achieving high performance in n–i–p perovskite solar cells. 4-tert- Butylpyridine effectively dissolves the lithium bis(trifluoromethanesulfonyl)imide dopant and stabilizes lithium... Read More
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