Computationally empowered design of emerging earth-abundant electrocatalysts toward electron- /proton-transferring energy conversion

Affordable and sustainable, also often quoted as Pt-free or metal-free, electrocatalysts have a pivotal role in various electrochemical energy conversion systems, which are attracting huge demands in the 21st century. Recent technological development enables us to perform computationally empowered experimental design or discovery of materials constituted of abundant elements (e.g. carbon, nitrogen, boron, etc.) with desirable electrochemical properties. These works indicate that nontraditional candidates, such as insulators being believed to unfavorable, are indeed found to be applicable as active electrocatalysts. This review summarizes state-of-the-art cooperative experimental/theoretical works devoted to understand fundamental aspects of electron- /proton-transferring surface electrochemical reactions from the point of materials. These works are expected to accelerate material research to find out optimal Pt- or metal-free electrocatalysts, even based on material classes which were previously rejected as candidates, toward electrochemical energy conversion devices.