Add to ORKGTin(II) sulfide (SnS) is an earth-abundant, inexpensive, and non-toxic absorber material for thin film solar cells. SnS films are deposited by atomic layer deposition (ALD) through the reaction of a tin precursor, bis(N,N'-diisopropylacetamidinato)tin(II), and hydrogen sulfide. The SnS films demonstrate excellent surface morphology, crystal structure, phase purity, stoichiometry, elemental purity, and optical and electrical properties.Engineering and Applied Science
Thin film solar cells have reached commercial maturity and extraordinarily high efficiency that make...
SnS (tin sulphide) is of interest for use as an absorber layer and the wider energy bandgap phases e...
The increasing human population has caused the demand for energy in society to escalate. The least d...
Attractive optical and electrical properties of tin chalcogenides, along with the abundance of Sn in...
Currently, a wide range of semiconductors are explored for their potential use as absorbers in photo...
Thin film solar cells made from earth-abundant, non-toxic materials are needed to replace the curren...
Tin sulphide (SnS) is a promising new material for use in photovoltaic solar cells. With a direct en...
Although solar energy is the most abundant energy resource available, photovoltaic solar cells must ...
The increasing human population has caused the demand for energy in society to escalate . The least ...
SnS is of interest for use as an absorber layer and the wider energy bandgap phases e.g. SnS2, Sn2S3...
Tin (II) sulfide (SnS), one of the most abundant materials, is being considered as an absorber mater...
Tin (II) sulfide (SnS) thin films have been developed on highly conductive indium doped tin oxide (I...
Tin (II) sulfide (SnS) thin films have been developed on highly conductive indium doped tin oxide (I...
Thin film solar cells have reached commercial maturity and extraordinarily high efficiency that make...
Thin film solar cells have reached commercial maturity and extraordinarily high efficiency that make...
Thin film solar cells have reached commercial maturity and extraordinarily high efficiency that make...
SnS (tin sulphide) is of interest for use as an absorber layer and the wider energy bandgap phases e...
The increasing human population has caused the demand for energy in society to escalate. The least d...
Attractive optical and electrical properties of tin chalcogenides, along with the abundance of Sn in...
Currently, a wide range of semiconductors are explored for their potential use as absorbers in photo...
Thin film solar cells made from earth-abundant, non-toxic materials are needed to replace the curren...
Tin sulphide (SnS) is a promising new material for use in photovoltaic solar cells. With a direct en...
Although solar energy is the most abundant energy resource available, photovoltaic solar cells must ...
The increasing human population has caused the demand for energy in society to escalate . The least ...
SnS is of interest for use as an absorber layer and the wider energy bandgap phases e.g. SnS2, Sn2S3...
Tin (II) sulfide (SnS), one of the most abundant materials, is being considered as an absorber mater...
Tin (II) sulfide (SnS) thin films have been developed on highly conductive indium doped tin oxide (I...
Tin (II) sulfide (SnS) thin films have been developed on highly conductive indium doped tin oxide (I...
Thin film solar cells have reached commercial maturity and extraordinarily high efficiency that make...
Thin film solar cells have reached commercial maturity and extraordinarily high efficiency that make...
Thin film solar cells have reached commercial maturity and extraordinarily high efficiency that make...
SnS (tin sulphide) is of interest for use as an absorber layer and the wider energy bandgap phases e...
The increasing human population has caused the demand for energy in society to escalate. The least d...