镁
纳米技术
光催化
储能
氢气储存
电催化剂
太阳能
化学
材料科学
氢
催化作用
物理
冶金
物理化学
工程类
电化学
有机化学
量子力学
电气工程
功率(物理)
电极
作者
Cheol-Hwan Shin,Ha‐Young Lee,Caleb Gyan‐Barimah,Jeong‐Hoon Yu,Jeong-Hoon Yu,Jong-Sung Yu,Jong-Sung Yu
摘要
Magnesium (Mg) has many unique properties suitable for applications in the fields of energy conversion and storage. These fields presently rely on noble metals for efficient performance. However, among other challenges, noble metals have low natural abundance, which undermines their sustainability. Mg has a high negative standard reduction potential and a unique crystal structure, and its low melting point at 650 °C makes it a good candidate to replace or supplement numerous other metals in various energy applications. These attractive features are particularly helpful for improving the properties and limits of materials in energy systems. However, knowledge of Mg and its practical uses is still limited, despite recent studies which have reported Mg's key roles in synthesizing new structures and modifying the chemical properties of materials. At present, information about Mg chemistry has been rather scattered without any organized report. The present review highlights the chemistry of Mg and its uses in energy applications such as electrocatalysis, photocatalysis, and secondary batteries, among others. Future perspectives on the development of Mg-based materials are further discussed to identify the challenges that need to be addressed.
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