Effective silicon nanowire arrays/WO₃ core/shell photoelectrode for neutral pH water splitting

Abstract: We report the first demonstration of a high-efficiency photoelectrochemical (PEC) water splitting reaction using a novel Si NWs/WO 3 core/shell photoanode prepared by a mild and inexpensive metal-catalyzed electroless etching process followed by dip-coating, airing and annealing methods. The dense and vertically aligned Si NWs/WO 3 core/shell nanostructure were characterized by scanning electron microscopy, transmission electron microscopy and x-ray diffraction. In comparison to planar n-Si, Si NWs and planar … Show more

“…Several studies have focused on overcoming these issues, such as selective doping of metal and nonmetal semiconductors, 19,20 addition of cocatalysts, like CoO x or Co-Pi, to improve the water oxidation kinetics, 21,22 forming a heterojunction via introduction of another semi-conductor layer, like BiVO 4 , Bi 2 S 3 , and Cu 2 O, to enhance the electron transport properties, 23−25 or using nano/microstructured substrates. 26,27 Various thin film deposition techniques have been used to achieve improved film structures, including a hydrothermal method, 28 sputtering, 29 pulsed laser deposition (PLD), 30 and atomic layer deposition (ALD). 14 Another important aspect that has not received enough attention yet is that the quality of the thin film can significantly affect the PEC properties.…”

Physical and Chemical Defects in WO₃ Thin Films and Their Impact on Photoelectrochemical Water Splitting

“…Several studies have focused on overcoming these issues, such as selective doping of metal and nonmetal semiconductors, 19,20 addition of cocatalysts, like CoO x or Co-Pi, to improve the water oxidation kinetics, 21,22 forming a heterojunction via introduction of another semi-conductor layer, like BiVO 4 , Bi 2 S 3 , and Cu 2 O, to enhance the electron transport properties, 23−25 or using nano/microstructured substrates. 26,27 Various thin film deposition techniques have been used to achieve improved film structures, including a hydrothermal method, 28 sputtering, 29 pulsed laser deposition (PLD), 30 and atomic layer deposition (ALD). 14 Another important aspect that has not received enough attention yet is that the quality of the thin film can significantly affect the PEC properties.…”

Physical and Chemical Defects in WO₃ Thin Films and Their Impact on Photoelectrochemical Water Splitting

“…It is clear, that the R 1 values of BP/TiO 2 NR photoelectrodes is smaller than the TiO 2 NR photoelectrode. This suggests more effective separation of electron‐hole pair and/or faster charge transfer in BP/TiO 2 NR photoelectrode …”

Water Splitting Performance Enhancement of the TiO₂ Nanorod Array Electrode with Ultrathin Black Phosphorus Nanosheets

“…24 Although Si semiconductor can absorb almost the entire solar spectrum, the planar Si displays strong light reflection. Therefore, it is necessary to construct the specific surface structures to enhance light absorption, such as Si microstructures (micropyramids, [28][29][30][31][32] microwires, [33][34][35] microporous Si 36,37 ) and nanostructures (nanopyramids, 38,39 nanowires, [40][41][42][43][44][45][46][47][48] nanopillars, [49][50][51] nanorods, 52,53 nanospheres, 54 etc.). Both the micro-and nano-structures can increase light harvesting via the multiple reflections and scattering.…”

Strategies for improving photoelectrochemical water splitting performance of Si‐based electrodes