Add to ORKGAbstract. Stoichiometric and nonstoichiometric thin films of copper selenide have been prepared by chemical bath deposition technique at temperature below 60°C on glass substrate. The effect of nonstoichiometry on the optical, electrical and structural properties of the film was studied. The bandgap energy was observed to in-crease with the increase in at % of copper in composition. The grain size was also observed to increase with the decrease of at % of copper in composition. The films were characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM), energy dispersive X-ray analysis (EDS), absorption spectroscopy, and AFM. The results are discussed and interpreted
Nanostructured thin films of copper selenide (Cu2Se) deposited by arrested precipitation technique (...
Nanostructured thin films of copper selenide (Cu2Se) deposited by arrested precipitation technique (...
Thin films of Copper Sulphide (CuS) have been fabricated by chemical bath deposition (CBD) technique...
Thin films of copper selenide (CuSe) were physically deposited layer-by-layer up to 5 layers using t...
A low cost Chemical Bath Deposition (CBD) system has been developed in our laboratory for the prepar...
Various methods have been developed for the preparation of copper selenide thin films. One of the p...
The structural, electrical and optical properties of chalcogenide thin films deposited by chemical b...
The structural, electrical and optical properties of chalcogenide thin films deposited by chemical b...
Copper selenide thin films of three different thicknesses have been prepared by vacuum evaporation m...
Various methods have been developed for the preparation of copper selenide thin films. One of the pr...
Chemical bath deposition techniques for ZnSe and CuSe thin films using N,N-dimethylselenourea as the...
Copper selenide (CuSe), tin selenide (SnSe) and copper tin selenide (Cu2SnSe3)powder were synthesize...
Deposition of copper indium selenide (Cu1-xInxSe2 (0 <= x <= 1)) thin films onto the spectroscopic g...
A study of indium-incorporated copper selenide thin-film deposition on a glass substrate using the s...
The opto-electronic properties of copper sulphide can be tuned by the controlled incorporation of se...
Nanostructured thin films of copper selenide (Cu2Se) deposited by arrested precipitation technique (...
Nanostructured thin films of copper selenide (Cu2Se) deposited by arrested precipitation technique (...
Thin films of Copper Sulphide (CuS) have been fabricated by chemical bath deposition (CBD) technique...
Thin films of copper selenide (CuSe) were physically deposited layer-by-layer up to 5 layers using t...
A low cost Chemical Bath Deposition (CBD) system has been developed in our laboratory for the prepar...
Various methods have been developed for the preparation of copper selenide thin films. One of the p...
The structural, electrical and optical properties of chalcogenide thin films deposited by chemical b...
The structural, electrical and optical properties of chalcogenide thin films deposited by chemical b...
Copper selenide thin films of three different thicknesses have been prepared by vacuum evaporation m...
Various methods have been developed for the preparation of copper selenide thin films. One of the pr...
Chemical bath deposition techniques for ZnSe and CuSe thin films using N,N-dimethylselenourea as the...
Copper selenide (CuSe), tin selenide (SnSe) and copper tin selenide (Cu2SnSe3)powder were synthesize...
Deposition of copper indium selenide (Cu1-xInxSe2 (0 <= x <= 1)) thin films onto the spectroscopic g...
A study of indium-incorporated copper selenide thin-film deposition on a glass substrate using the s...
The opto-electronic properties of copper sulphide can be tuned by the controlled incorporation of se...
Nanostructured thin films of copper selenide (Cu2Se) deposited by arrested precipitation technique (...
Nanostructured thin films of copper selenide (Cu2Se) deposited by arrested precipitation technique (...
Thin films of Copper Sulphide (CuS) have been fabricated by chemical bath deposition (CBD) technique...