In a recent article, researchers presented an iridium single-atom catalyst coordinated with cobalt–iron hydroxides, showing enhanced performance for oxygen evolution reactions (OER). This catalyst ...

氧析出反应（OER）是电解水的关键步骤，涉及四电子转移。为了替代稀有且昂贵的贵金属催化剂（如IrO2和RuO2），研究者们致力于开发非贵金属OER ...

A group of researchers has developed an electrocatalyst that promises to significantly enhance the efficiency and stability ...

One of the biggest challenges in electrochemical water splitting is the so-called oxygen evolution reaction (OER), a sluggish reaction in which water molecules are broken down into their ...

然而，由于缓慢的电子转移动力学和复杂的反应途径，OER 通常需要很大的过电势并严重阻碍水电解的整体效率。铱基和钌基纳米粒子一直是 OER 的 ...

An artificial intelligence robot chemist could be the key to allowing humans to survive on Mars thanks to its ability to quickly supply oxygen not found in the atmosphere.

KAIST researchers have created an innovative hydrogen production system addressing green hydrogen generation challenges.

The technique's foundation was laid in the early 2010s by Professors Duan, Huang, and Dr Menging Ding, who initially used ETS to investigate surface-adsorbed anions on platinum surfaces and their ...

A research team jointly led by Professor Sung You Hong and Professor Jan-Uwe Rohde has unveiled a novel method for synthesizing allenes—a series of compounds integral to drug development and ...

Figure 1. Illustrations of a trifunctional graphene-sandwiched heterojunction-embedded layered lattice (G-SHELL) structure. Schematic representation of a) synthesis procedures of G-SHELL from a ...