Abstract: An atmospheric pressure chemical vapor deposition method for producing an N-type semiconductive metal sulfide thin film on a heated substrate includes converting an indium-containing precursor to at least one of a liquid phase and a gaseous phase. The indium-containing precursor is mixed with an inert carrier gas stream and hydrogen sulfide in a mixing zone so as to form a mixed precursor. A substrate is heated to a temperature in a range of 100° C. to 275° C. and the mixed precursor is directed onto the substrate. The hydrogen sulfide is supplied at a rate so as to obtain an absolute concentration of hydrogen sulfide in the mixing zone of no more than 1% by volume. The In-concentration of the indium containing precursor is selected so as to produce a compact indium sulfide film.

Abstract: A method of producing, at atmospheric pressure, an n-type semiconductive indium sulfide thin film on a substrate using an indium-containing precursor, hydrogen sulfide as a reactive gaseous precursor, and an inert carrier gas stream includes cyclically repeating first and second steps so as to produce an indium sulfide thin film of a desired thickness. The first method phase includes converting the indium-containing precursor to at least one of a dissolved and a gaseous phase, heating the substrate to a temperature in a range of 100° C. to 275° C., directing the indium containing precursor onto the substrate and supplying hydrogen sulfide to the indium-containing precursor in a mixing zone in an amount so as to provide an absolute concentration of hydrogen sulfide that is greater than zero and no greater than 1% by volume. The indium concentration of the indium-containing precursor is set so as to produce a compact In(OHx,Xy,Sz)3 film, where X=halide and x+y+2z=1 with z?0.

Abstract: An atmospheric pressure chemical vapor deposition method for producing an N-type semiconductive metal sulfide thin film on a heated substrate includes converting an indium-containing precursor to at least one of a liquid phase and a gaseous phase. The indium-containing precursor is mixed with an inert carrier gas stream and hydrogen sulfide in a mixing zone so as to form a mixed precursor. A substrate is heated to a temperature in a range of 100° C. to 275° C. and the mixed precursor is directed onto the substrate. The hydrogen sulfide is supplied at a rate so as to obtain an absolute concentration of hydrogen sulfide in the mixing zone of no more than 1% by volume. The In-concentration of the indium containing precursor is selected so as to produce a compact indium sulfide film.

Abstract: A method of producing, at atmospheric pressure, an n-type semiconductive indium sulfide thin film on a substrate using an indium-containing precursor, hydrogen sulfide as a reactive gaseous precursor, and an inert carrier gas stream includes cyclically repeating first and second steps so as to produce an indium sulfide thin film of a desired thickness. The first method phase includes converting the indium-containing precursor to at least one of a dissolved and a gaseous phase, heating the substrate to a temperature in a range of 100° C. to 275° C., directing the indium containing precursor onto the substrate and supplying hydrogen sulfide to the indium-containing precursor in a mixing zone in an amount so as to provide an absolute concentration of hydrogen sulfide that is greater than zero and no greater than 1% by volume. The indium concentration of the indium-containing precursor is set so as to produce a compact In(OHx,Xy,Sz)3 film, where X=halide and x+y+2z=1 with z?0.