Large-grained Sb2S3 thin films with Sn-doping by chemical bath deposition for planar heterojunction solar cells-Reference-Cited by-同舟云学术

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Large-grained Sb2S3 thin films with Sn-doping by chemical bath deposition for planar heterojunction solar cells

Published:2018-09 Issue: Volume:84 Page:138-143
ISSN:1369-8001
Container-title:Materials Science in Semiconductor Processing
language:en
Short-container-title:Materials Science in Semiconductor Processing

Author:

Chalapathi U.,Poornaprakash B.,Ahn Chang-Hoi,Park Si-Hyun

Publisher

Elsevier BV

Subject

Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science

Reference17 articles.

1. Light soaking and gas effect on nanocrystalline TiO2/Sb2S3/CuSCN photovoltaic cells following extremely thin absorber concept;Nezu;J. Phys. Chem. C,2010

2. Effect of interfacial engineering in solid-state nanostructured Sb2S3 heterojunction solar cells;Fukumoto;Adv. Energy Mater.,2013

3. Highly improved Sb2S3 sensitized-inorganic-organic heterojunction solar cells and quantification of traps by deep-level transient spectroscopy;Choi;Adv. Funct. Mater.,2014

4. Efficient Sb2S3-sensitized solar cells via single-step deposition of Sb2S3 using S/Sb-ratio-controlled SbCl3-thiourea complex solution;Choi;Adv. Funct. Mater.,2015

5. Efficient planar antimony sulfide thin film photovoltaics with large grain and preferential growth;Yuan;Sol. Energy Mater. Sol. Cells,2016

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1. Two-step synthesis of antimony sulfide thin films: enhancement in physical properties through sulfurization;Materials Research Express;2024-04-01

2. Improvement of the photoelectrical properties of chemical bath-deposited Sb2S3 thin films with low copper doping;Journal of Materials Science: Materials in Electronics;2024-02-29

3. Band offset engineering in antimony sulfide (Sb2S3) solar cells, using SCAPS simulation: A route toward PCE > 10%;Optik;2023-07

4. Aluminium substitution in Sb₂S₃nanorods enhances the stability of the microstructure and high-rate capability in the alloying regime;Nanoscale Advances;2023

5. A comprehensive insight into deep-level defect engineering in antimony chalcogenide solar cells;Materials Advances;2023

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