Add to ORKGNickel selenide, NiSe2 is one of the absorbent materials used in thin film technology in photoelectrochemical (PEC) cell. Electrodeposition is a preferred method to produce NiSe2 thin films due to its advantages such as the possibility of large scale production, minimum waste of components, easy monitoring of deposition process and large area deposition. Ethylenediaminetetraacetic acid (EDTA) and triethanolamine (TEA) were employed as the additives during the deposition. The samples were deposited within 30 minutes deposition time according to potential acquired from cyclic voltammetry measurements. Thin film thickness measurements, structural studies, optical studies, morphological and compositional analysis as well as Mott-Schottky measur...
NiSe thin films were deposited onto microscope glass slides by chemical bath deposition method. Chem...
Nickel chalcogenides, NiX2(X=S,Se) thin films were successfully electrodeposited on indium-tin-oxide...
The nickel selenide thin films were prepared onto microscope glass slides by a chemical bath deposit...
Nickel selenide, NiSe2 is one of the absorbent materials used in thin film technology in photoelectr...
Nickel selenide, NiSe2 is one of the absorbent materials used in thin film technology in photoelectr...
AbstractNickel selenide, NiSe2 is one of the absorbent materials used in thin film technology in pho...
The present study investigates the role of deposition time on the structural, morphological, composi...
Background: Nickel, one of the transition metals synthesised with chalcogenides such as Se, S and Te...
Background Nickel, one of the transition metals synthesised with chalcogenides such as Se, S and Te...
The transition metal, nickel is a favourable material to create combination with chalcogenides eleme...
Nickel selenide thin films have been potentiostatically electrodeposited on titanium substrate at ro...
The transition metal, nickel is a favourable material to create combination with chalcogenides eleme...
Nickel selenide thin films have been potentiostatically electrodeposited on titanium substrate at ro...
Nickel tin selenide thin films have been potentiostatically electrodeposited on titanium substrate f...
Solar cell is one of the promising alternative green energy sources that can provide free electricit...
NiSe thin films were deposited onto microscope glass slides by chemical bath deposition method. Chem...
Nickel chalcogenides, NiX2(X=S,Se) thin films were successfully electrodeposited on indium-tin-oxide...
The nickel selenide thin films were prepared onto microscope glass slides by a chemical bath deposit...
Nickel selenide, NiSe2 is one of the absorbent materials used in thin film technology in photoelectr...
Nickel selenide, NiSe2 is one of the absorbent materials used in thin film technology in photoelectr...
AbstractNickel selenide, NiSe2 is one of the absorbent materials used in thin film technology in pho...
The present study investigates the role of deposition time on the structural, morphological, composi...
Background: Nickel, one of the transition metals synthesised with chalcogenides such as Se, S and Te...
Background Nickel, one of the transition metals synthesised with chalcogenides such as Se, S and Te...
The transition metal, nickel is a favourable material to create combination with chalcogenides eleme...
Nickel selenide thin films have been potentiostatically electrodeposited on titanium substrate at ro...
The transition metal, nickel is a favourable material to create combination with chalcogenides eleme...
Nickel selenide thin films have been potentiostatically electrodeposited on titanium substrate at ro...
Nickel tin selenide thin films have been potentiostatically electrodeposited on titanium substrate f...
Solar cell is one of the promising alternative green energy sources that can provide free electricit...
NiSe thin films were deposited onto microscope glass slides by chemical bath deposition method. Chem...
Nickel chalcogenides, NiX2(X=S,Se) thin films were successfully electrodeposited on indium-tin-oxide...
The nickel selenide thin films were prepared onto microscope glass slides by a chemical bath deposit...