2025.12.26JooHyeon HeoResearch New Study Unveils Innovative Carbon Fiber-Based Water Droplet Power Generator The research was published in the online version of Advanced Functional Materials on November 20, 2025.
2025.12.22JooHyeon HeoResearch UNIST Achieves Reversible Spin Splitting Effect in Altermagnetic RuO2 Thin Films Their findings have been published in Nano Letters on November 25, 2025.
2025.12.19JooHyeon HeoResearch UNIST Unveils Ultra-Low Power, Fully Biodegradable Artificial Synapse with Record-Breaking Memory Their findings have been published in Nature Communications on November 27, 2025.
2025.12.18JooHyeon HeoPeople Two Faculty Members Awarded Minister of Education Commendation Professors Kyudong Choi and Jae Hwa Lee have been named to Ministry of Education's Top 50 Outstanding Academic Research Achievements.
2025.12.18JooHyeon HeoResearch UNIST Unveils Ultra-Thin Materials to Boost Solar Hydrogen Production Efficiency The findings of this research was published online in ACS Energy Letters on November 11, 2025.
2025.12.16JooHyeon HeoResearch Revolutionary Method Enables Rapid, Eco-Friendly Production of Multi-Metal Nanostructures Using CO2 The findings of this research were published online in Nano Letters on November 21, 2025.
2025.12.14JooHyeon HeoNews UNIST Featured in Nature Branded Content on AI-Driven Clean Energy Innovation Titled “How AI Is Speeding the Progress of Green Hydrogen,” the article spotlights UNIST’s AI-driven approach to advancing scalable clean-energy technologies.
2025.12.09JooHyeon HeoResearch UNIST Unveils Integrated Framework to Better Assess Air Pollution Health Risks The findings of this research were published online in the Journal of Hazardous Materials on November 14, 2025.
2025.12.05JooHyeon HeoResearch Simple Teflon Coating Boosts Hydrogen Production Efficiency by 40% Their findings were published online in Advanced Science on November 11, 2025, and featured as a cover article.
2025.11.26JooHyeon HeoResearch New Polymer Electrolyte Design Promises Safer, Longer-Lasting Solid-State Lithium Batteries The findings of this study have been published in the online version of Energy Storage Materials (IF 20.2) on October 31, 2025.
