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 The simultaneous removal reaction (SRR) is a pioneering approach for achieving the simultaneous removal of anthropogenic NOx and CO pollutants through catalytic reactions. To facilitate this removal across diverse industrial fields... Read More
Abstract Photoelectrochemical production of ammonia (NH3) is potentially eco-friendly but suffers from a low solar-to-ammonia productivity (SAP) and requires a high additional bias for the overall NH3 production from nitrate reduction and w... Read More
A joint research team, affiliated with UNIST has unveiled a novel method of converting nitric oxide (NO), which is the main cause of fine dust, into pure ammonia (NH3) without emitting toxic gases, such as carbon dioxide (CO2). This breakth... Read More
![[UNIST Webinar] AI enabled Computational Imaging for Biomedical Applications](https://news.unist.ac.kr/wp-content/uploads/2022/10/Session-13.18-296x166.jpg)