Potassium Doping Facilitated Formation of Tunable Superoxides in Li<sub>2</sub>O<sub>2</sub> for Improved Electrochemical Kinetics
Wenrui Dai, Xinhang Cui, Xiao Chi, Yin Zhou, Jinlin Yang, Xu Lian, Qi Zhang, Wenhao Dong, Wei Chen
Abstract
Superoxide (O2–) species play a crucial role in determining the charge kinetics for aprotic lithium–oxygen (Li–O2) batteries. However, the growth of O2–-rich lithium peroxide (Li2O2) is challenging since O2– is thermodynamically unfavorable and unstable in an O2 atmosphere. Herein, we reported the synthesis of defective Li2O2 with tunable O2– via K+ doping. The K+ dopants can successfully stabilize O2– species and induce the coordination of Li+ with O2–, leading to increased Li vacancies. Compared to the pristine Li2O2, the as-prepared defective Li2O2 can be charged at a lower overpotential in Li–O2 batteries, which is ascribed to further increased Li vacancies contributed by the depotassiation process at the onset of the charge process. Our findings suggest a new strategy to better control O2– species in Li2O2 by K+ dopants and provide insights into the K+ effects on charge mechanism in Li–O2 batteries.