CdSe : In ‐ In2 O 3 Coatings with n‐Type Conductivity Produced by Air Annealing of CdSe‐In Thin Films

García, Víctor M.; George, P.J.; Nair, M. T. S.; Nair, P. K.

doi:10.1149/1.1837123

Cited by 17 publications

(11 citation statements)

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“…Application of the films in solid state solar cells may also be a possibility. The present work supplements earlier results on chemically deposited CdS#In and CdSe#In films (8,9), suggesting that the chemical deposition technique may be combined with thermal evaporation of metallic films to produce coatings with interesting electrical properties.…”

Section: Discussionsupporting

confidence: 87%

Structural and Electrical Properties of Annealed In–Bi2S3Thin Films

Suárez-Parra

George

Jiménez-González

et al. 1998

Journal of Solid State Chemistry

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Section: Discussionsupporting

confidence: 87%

Structural and Electrical Properties of Annealed In–Bi2S3Thin Films

Suárez-Parra

George

Jiménez-González

et al. 1998

Journal of Solid State Chemistry

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“…that In 2 O 3 :Sn (indium tin oxide, ITO) is a transparent conductive coating with the high electrical conductivity of 10 3 -10 4 −1 cm −1 [36] and that in sub-stoichiometric (In 2 O 3−x ) material, the electrical conductivity can be relatively high, 10 −2 -10 2 −1 cm −1 . The latter aspect has been discussed in the case of heated layers of CdSe-In [37] and CdS-In [38]. In a 1968 paper, a carrier density of ≈10 24 m −3 and an electron mobility of 0.3 m 2 V −1 s −1 were reported for InAs thin films formed by thermal evaporation, which was annealed at temperatures 300 • C or above [39].…”

Section: Formation Of Inas By Heating Of As 2 S 3 /As 2 O 3 -In Layersmentioning

confidence: 99%

Thin films of arsenic sulfide by chemical deposition and formation of InAs

Méndez

Nair

2006

Semicond. Sci. Technol.

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We report a method for obtaining thin films of arsenic sulfide by chemical bath deposition and the subsequent formation of InAs by heating the films with a vacuum-deposited coating of In. X-ray diffraction (XRD) studies have shown that the thin film deposited from chemical baths of pH ∼2, prepared by mixing aqueous acidic solutions of As(III) with sodium thiosulfate, is a composite film of crystalline As 2 O 3 and As 2 S 3 , with the incorporation of sulfur. When heated at 150-250 • C, the As 2 O 3 component transforms to As 2 S 3 , but still with very few identifiable peaks in the XRD patterns of the annealed samples. The films have a direct band gap of ≈2.7 eV (as-prepared) and ≈2.52 eV (heated at 250 • C), with forbidden optical transitions. The sheet resistance of the film (300 nm thick) is 10 12 , and the electrical conductivity is 10 −8 −1 cm −1. After being heated in a sulfur-rich atmosphere at >200 • C, the films show photosensitivity. The As 2 O 3 /As 2 S 3 thin film with an evaporated indium film, when heated at 250 • C in nitrogen or air, produces InAs as a major crystalline component. In this case, In 2 S 3 or In 2 O 3 may be present as a minor component in the films, depending on whether heating is done in nitrogen or air, respectively. The optical band gap of this InAs component is direct, 0.5 to 0.8 eV, depending on the film thickness and heating process. These composite films are photosensitive; a dark conductivity of 0.05 −1 cm −1 in the films formed in nitrogen is ascribed to InAs and 5 −1 cm −1 in the films formed by heating in air is ascribed to the In 2 O 3 component. The photoconductivity of the films is of the same order of magnitude as the dark conductivity in each case.

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“…Recently, we reported another technique to convert the chemically deposited CdS [57,58] and CdSe thin films to n-type [59]. Fig.…”

Section: Conversion Of Chemically Deposited Films To N-type By Ion Exmentioning

confidence: 99%

“…12 illustrates the basic mechanism involved. A 20 nm thick indium film is evaporated over a chemically deposited CdSe thin film of about 150 nm thickness [59]. The quantity of indium required for this is about 15 mg to cover an area of 150 cm of the film surface.…”

Section: Conversion Of Chemically Deposited Films To N-type By Ion Exmentioning

confidence: 99%

Semiconductor thin films by chemical bath deposition for solar energy related applications

Nair

1998

Solar Energy Materials and Solar Cells

369

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In this paper we present the basic concepts underlying the chemical bath deposition technique and the recipes developed in our laboratory during the past ten years for the deposition of good-quality thin films of CdS, CdSe, ZnS, ZnSe, PbS, SnS, Bi S , Bi Se , Sb S , CuS, CuSe, etc. Typical growth curves, and optical and electrical properties of these films are presented. The effect of annealing the films in air on their structure and composition and on the electrical properties is notable: CdS and ZnS films become conductive through a partial conversion to oxide phase; CdSe becomes photosensitive, SnS converts to SnO , etc. The use of precipitates formed during deposition for screen printing and sintering, in polymer composites and as a source for vapor-phase deposition is presented. Some examples of the application of the films in solar energy related work are presented.1998 Elsevier Science B.V. All rights reserved.

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CdSe : In ‐ In2 O 3 Coatings with n‐Type Conductivity Produced by Air Annealing of CdSe‐In Thin Films

Cited by 17 publications

References 1 publication

Structural and Electrical Properties of Annealed In–Bi2S3Thin Films

Structural and Electrical Properties of Annealed In–Bi2S3Thin Films

Thin films of arsenic sulfide by chemical deposition and formation of InAs

Semiconductor thin films by chemical bath deposition for solar energy related applications

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