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: The performance enhancement of pyroelectric semiconductor materials-based solar cells via a temperature-variation-induced pyro-phototronic effect is realized, which may have potential applications in solar energy scavenging and self-powered sensor systems.

TL;DR: The results shown here demonstrate that the safer PEO-based Li-O2 battery is highly advantageous and can potentially replace the contingent of liquid-based cells upon further investigation.

TL;DR: In this article, LiBH4 absorbing ammonia at room temperature is used to generate ammonium borohydride ammoniates, which can be readily generated by Li BH 4 absorbing ammonia.

TL;DR: In this paper, hierarchical WO 3 @NiFe-layered double hydroxide (LDH) nanoarrays were synthesized via a controllable hydrothermal process to prepare WO3 nanorod arrays followed by electrochemical deposition of layer structured NiFe-LDH.