Enhanced Li2O2 Decomposition in Rechargeable Li–O2 Battery by Incorporating WO3 Nanowire Array Photocatalyst

TL;DR: A novel bifunctional photo-assisted Li-O2 system is established by employing a hierarchical TiO2 -Fe2 O3 heterojunction, in which the photo-generated electrons and holes play key roles in reducing the overpotential in the discharging and charging processes, respectively.

TL;DR: In this paper , a review of photo-enhanced rechargeable rechargeable metal batteries based on photovoltaic technology and high energy-density metal batteries is presented, which can simplify device configuration, lower costs, and reduce external energy loss.

TL;DR: In this article, a detailed review of 1D-SN energy nano-systems is presented, where the travel of electron and photon is confined in two directions but in one dimension, and a list of efficient fabrication strategies are discussed along with ultrafast electron transport dynamics of SN and piezoelectric nanowires.

TL;DR: This work reports a novel and effective strategy to distort the lattice structure by constructing a metastable MoSSe solid solution and thus, tune its catalytic activity for the Li-O2 batteries.

TL;DR: In this paper, a new type of bifunctional cathode catalyst was designed by mounting ruthenium nanoparticles on reduced graphene oxide co-doped with nitrogen, iron, and cobalt.

TL;DR: High-surface-area and porous cobalt phosphide (Co2P) nanosheets are synthesized via an environmentally safe hydrothermal method, where red phosphorous is used as the phosphorous source and it was found that the as-prepared Co2P/acetylene black (AB) composite delivered enhanced electrochemical performances.