Improving Electrocatalytic Activity of MoO<sub>3</sub> for the Oxygen Evolution Reaction by Incorporation of Li Ions
Kyeong‐Ho Kim, Daehyeon Hong, Myeong Gyu Kim, Wooseon Choi, Taewon Min, Young‐Min Kim, Yun‐Hyuk Choi
Abstract
Several polymorphs of MoO 3 with different crystal and electronic structures provide many opportunities to find suitable electrocatalysts for water splitting hydrogen generation. So far, promising electrocatalytic activity for hydrogen evolution reaction (HER) has been found for α-MoO 3 (orthorhombic), while the polymorph has shown a poor oxygen evolution reaction (OER) activity. In this work, it is found that the intrinsic OER activity of α-MoO 3 is remarkably improved by incorporating guest ions of lithium-ion (Li + ). α-MoO 3 nanoparticles were deposited on a carbon fiber paper (α-MoO 3 /CFP) by chemical vapor transport and a subsequent lithiation process was applied to prepare lithiated α-MoO 3 /CFP (Li-α-MoO 3 /CFP), showing the robust η 10 of 458 mV. The improved OER activity in the lithiated electrode is attributed to the incorporation of Li + into the MoO 3, which increases the electron carrier density and the corresponding electrical conductivity, thereby improving the interfacial charge transfer kinetics as well as activating a large number of ECSA.