2025.10.31JooHyeon HeoResearch UNIST Unveils Eco-Friendly, Self-Driving PO Production System Using In-House Generated H2O2 The findings of this research have been published in the online version of Nature Communications on September 30, 2025.
2025.10.29JooHyeon HeoResearch UNIST Unveils Groundbreaking Technology to Nearly Fully Decompose Nitrous Oxide at Room Temperature Their findings have been published online in Advanced Materials on September 26, with the official publication forthcoming.
2025.10.27JooHyeon HeoResearch UNIST-SNU-POSTECH Researchers Unveil Key Insights into Degradation Mechanisms of All-Solid-State Batteries The findings of this research have been published in the October 2025 issue of Nature Communications.
2025.10.24JooHyeon HeoPeople [UNISTar Success Stories] UNIST Alumni Leads Development of Solar Hydrogen Panels at NREL [UNISTar Success Stories—Turning Imagination into Reality] ① Dr. Dharmesh Hansora (School of Energy and Chemical Engineering)
2025.10.22JooHyeon HeoResearch New Study Unveils Opal-Inspired Structural Color Polymer Particles with Nano-Hole Architecture This breakthrough was published in Angewandte Chemie International Edition on September 6, 2025.
2025.10.17JooHyeon HeoResearch Transforming Waste Solar Panels into Hydrogen and Secondary Battery Materials Their findings have been published in the September 2025 edition of the Journal of the American Chemical Society (JACS).
2025.10.15JooHyeon HeoResearch New Study Unveils High-Performance Battery Anode Material for Fast Charging and Long Cycle Life UNIST, Korea University, and KIST create nanographene–graphite hybrid anodes to enhance Li-ion battery durability—published in Adv. Funct. Mater.
2025.10.13JooHyeon HeoResearch Researchers Unveil High-Efficiency Perovskite Solar Cells with Tripled Lifespan A joint research team, affiliated with UNIST and Korea University introduce solid-state additive to significantly enhance durability.
2025.09.22JooHyeon HeoResearch Innovative Green Hydrogen Peroxide Production Achieved Without External Electricity or Solar Power UNIST, KAIST, and Stanford researchers develop self-driven system using glycerol oxidation.
2025.09.04JooHyeon HeoResearch UNIST Unveils FAD-Driven Electrochemical System Promises Safer, Cheaper Green Hydrogen Storage Their findings have been published online in Applied Catalysis B: Environmental and Energy on July 2, 2025.
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