With the advantages of high absorption coefficient, non-toxicity and low cost, Sb 2 S 3 shows
great potential as a narrow bandgap photocathode in the field of PEC hydrogen production …

As traditional energy structures transition to new sources, hydrogen is receiving significant
research attention owing to its potential as a clean energy source. The most significant …

Using photocathodes such as Cu 2 O and CuO is an effective strategy for direct hydrogen
production in photoelectrochemical (PEC) water splitting. The theoretical photocurrent …

Clean energy production and environmental remediation are imperative for sustainable
future. Specially, exploration of multifunctional catalyst, for production of low-cost and eco …

The process of transforming solar power into hydrogen fuel through photoelectrochemical
water splitting is a highly viable strategy for producing hydrogen in an environmentally …

Silicon (Si) is a commercially available semiconductor used for photoelectrochemical (PEC)
hydrogen production, which has various advantages of earth-abundant element, non …

Cuprous oxide layers were obtained on a conductive glass substrate via room-temperature
electrochemical deposition from the electrolyte containing 0.4 M CuSO 4, 3 M lactic acid …

In this work, CuOx (x= 1 and 2) nanostructures have been synthesized by electrochemical
anodization in ethylene glycol based electrolytes using oxalic acid or NaF (with or without …

MnSe x is a type of p-type semiconductor that combines with n-type FeSe x in a one-step
hydrothermal method to form a MnSe x/FeSe x pn type heterojunction. The heterostructures …

This article presents a novel approach to improve both the photoelectrocatalytic activity and
stability of the p-Cu 2 O photocathode. The approach involves the coating of an n-type TiO 2 …