Nanocrystalline p-type-cuprous oxide thin films by room temperature chemical bath deposition method

“…Cu 2 O can be synthesized by various methods such as sputtering [17,18], chemical vapor deposition [19,20], thermal oxidation [21], chemical bath deposition [22], and electrodeposition [23][24][25].…”

Cu2O photoelectrodes for solar water splitting: Tuning photoelectrochemical performance by controlled faceting

“…Cu 2 O can be synthesized by various methods such as sputtering [17,18], chemical vapor deposition [19,20], thermal oxidation [21], chemical bath deposition [22], and electrodeposition [23][24][25].…”

Cu2O photoelectrodes for solar water splitting: Tuning photoelectrochemical performance by controlled faceting

“…In the past several years, the galvanic replacement reaction between base metals or base metal oxides with noble metals ion offers a new choice for the preparation of metallic or bimetallic nanomaterials without the addition of any reducing agents.Cu 2 O is well known as a cheap, non‐toxic, p‐type transition semiconductor . A variety of Cu 2 O nanoparticles, such as cubes, truncated octahedra, flower, nanosphere, nanowire have been controllably synthesized.…”

A Sensor Based on Hollow, Octahedral, Cu₂O‐Supported Palladium Nanoparticles – Prepared by a Galvanic Replacement Reaction – and Carboxylic Multi‐Walled Carbon Nanotubes for Electrochemical Detection of Caffeic Acid in Red Wine

“…Brown and Choi [14] have prepared nanocrystalline Cu 2 O thin films by an electrodeposition method and have found a significant blueshift in the bandgap energy. More recently, Ahirrao et al [15] have synthesized nanocrystalline cuprous oxide films by room temperature chemical bath deposition, other research work has been done to fabricate micro-and nanostructured cuprous oxide crystals or films by adjusting the electrodeposition parameters [16,17]. Ng [17].…”

Electrochemical synthesis of transparent nanocrystalline Cu2O films using a reverse potential waveform