Abstract Developing a direct carbon dioxide (CO2) capture and methanation method is one of the most important challenges to achieving carbon neutrality. However, converting CO2 into methane (CH4) kinetically requires the activation of stabl... Read More
Abstract Perovskite/organic tandem solar cells (POTSCs) are promising candidates for surpassing the Shockley-Queisser limit through reduction of thermalization losses. However, wide bandgap perovskite solar cells (WBG PSCs), which function... Read More
Abstract Organic photoelectrochemical (OPEC) cells are efficient at generating photocurrents but face significant challenges in long-term stability due to the incompatibility of metal oxide charge transport layers with organic photoactive m... Read More
Professor Seungho Lee, affiliated with the Department of Design and the Graduate School of Carbon Neutrality at UNIST, has been awarded the Ulsan Mayor’s Commendation Award for his exemplary work in launching and revitalizing the Ulsa... Read More
Abstract To mitigate global warming, the paramount imperative lies in curbing the emission of CO2. The guest replacement method is a prominent carbon-neutral technological advancement that involves injecting CO2 into natural gas hydrate lay... Read More
UNIST Graduate School of Carbon Neutrality will work with PI Advanced Materials Co., Ltd., the world’s largest polyimide film market share, to develop technology to reduce carbon emissions. On October 16, the Graduate School of Carbon... Read More
Abstract The prominent chemical bath deposition (CBD) method leverages tin dioxide (SnO2) as an electron transport layer (ETL) in perovskite solar cells (PSCs), achieving exceptional efficiency. The deposition of SnO2, however, can lead to... Read More
Abstract It is known that gas generated through plastic pyrolysis is abundant in hydrocarbons and can serve as a raw material for carbon nanotubes (CNTs). However, there has been no research evaluating both the economic and environmental fe... Read More
Abstract Fe‒S cluster-harboring enzymes, such as carbon monoxide dehydrogenases (CODH), employ sophisticated artificial electron mediators like viologens to serve as potent biocatalysts capable of cleaning-up industrial off-gases at stunnin... Read More
Abstract Ni–Fe carbon monoxide dehydrogenases (CODHs) are nearly diffusion-limited biocatalysts that oxidize CO. Their O2 sensitivity, however, is a major drawback for industrial applications. Here we compare the structures of a fast CODH w... Read More
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