Surfactant free solvothermal synthesis of Cu3BiS3 nanoparticles and the study of band alignments with n-type window layers for applications in solar cells: Experimental and theoretical approach

In this paper we describe the synthesis of nanoscale grains of the p-type semiconductor Cu3BiS3 (CBS) and its material properties. Seed-like nanograins of length ~250 nm with orthorhombic wittichenite structure were obtained through the simple solvothermal reaction of CuCl, Bi(NO3)3 and sulfur in et...

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Bibliographic Details
Published in:Journal of alloys and compounds 2021-06, Vol.866, p.158447, Article 158447
Main Authors: Morales-Gallardo, M.V., Pascoe-Sussoni, Jojhar E., Delesma, Cornelio, Mathew, X., Paraguay-Delgado, F., Muñiz, Jesús, Mathews, N.R.
Format: Article
Language:English
Subjects:
Cadmium sulfide
CBS
Copper chloride
Density functional theory
DFT
Diamines
Electronic structure
Energy alignment
Fourier transforms
Heterojunctions
Hot pressing
Material properties
Nanomaterials
Nanoparticles
P-type semiconductors
Photovoltaic cells
Photovoltaic materials
Raman spectroscopy
Seebeck effect
Solar cells
Synthesis
Titanium dioxide
X ray photoelectron spectroscopy
Zinc oxide
Zinc sulfide
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Summary:In this paper we describe the synthesis of nanoscale grains of the p-type semiconductor Cu3BiS3 (CBS) and its material properties. Seed-like nanograins of length ~250 nm with orthorhombic wittichenite structure were obtained through the simple solvothermal reaction of CuCl, Bi(NO3)3 and sulfur in ethylene diamine. The obtained nanomaterial is of single phase without traces of any impurities as confirmed by XRD, XPS, Raman spectroscopy, and TEM Fourier transform analysis. The material has a band gap 1.4 eV. The Seebeck coefficient is ~450 μV/K, which is in the range of that reported for CBS synthesized by hot pressing the components Cu, Bi and S. With the aid of Density Functional theory, the electronic structure properties of the material are evaluated to derive some photovoltaic parameters of interest. The band alignments of the CBS system with known n-type window materials such as CdS, ZnO, ZnS, CdS/ZnO, CdS/ZnS and TiO2, were also studied to evaluate the prospect of heterojunction solar cells based on CBS absorber. This may represent a theoretical methodology to design heterojunctions with adequate window materials that enhance the performance of solar cells. [Display omitted] •Cu3BiS3 nanoparticles were synthesized by surfactant free solvothermal method.•Phase-pure orthorhombic Cu3BiS3 with stoichiometric composition was obtained.•A theoretical elucidation of the electronic structure properties of Cu3BiS3 was performed.•Possible window materials are identified based on band edge calculations.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2020.158447