Chemical synthesis, characterization and theoretical investigations of stannite phase CuZn2AlS4 nanocrystals-Reference-Cited by-同舟云学术

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Chemical synthesis, characterization and theoretical investigations of stannite phase CuZn2AlS4 nanocrystals

Published:2016 Issue:2 Volume:40 Page:1149-1154
ISSN:1144-0546
Container-title:New Journal of Chemistry
language:en
Short-container-title:New J. Chem.

Author:

Ghosh Anima¹²³⁴⁵,Thangavel Rajalingam¹²³⁴⁵,Gupta Arunava⁶⁷⁸⁹

Affiliation:

1. Solar Energy Research Laboratory

2. Department of Applied Physics

3. Indian School of Mines

4. Dhanbad

5. India

6. Center for Materials for Information Technology

7. The University of Alabama

8. Tuscaloosa

9. USA

Abstract

The stannite-phase CuZn₂AlS₄ nanocrystals strongly absorb at visible wavelengths, which is suitable for solar energy material applications.

Publisher

Royal Society of Chemistry (RSC)

Subject

Materials Chemistry,General Chemistry,Catalysis

Link

http://pubs.rsc.org/en/content/articlepdf/2016/NJ/C5NJ02365C

Reference29 articles.

1. Effect of substrate temperature on the structural and electrical properties of CIGS films based on the one-stage co-evaporation process

2. Development of CZTS-based thin film solar cells

3. The path towards a high-performance solution-processed kesterite solar cell

4. Device characteristics of a 10.1% hydrazine-processed Cu2ZnSn(Se,S)4 solar cell

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1. Microwave-synthesized aluminum, gallium and indium-substituted stannite nanocrystal absorbers for solar cell applications;Materials Today Sustainability;2024-06

2. Structural stability, electronic band structure, and optoelectronic properties of quaternary chalcogenide CuZn2MS4 (M = In and Ga) compounds via first principles;Indian Journal of Physics;2024-04-02

3. Recent advances in rational structure design for nonlinear optical crystals: leveraging advantageous templates;Chemical Society Reviews;2024

4. First-Principles Analysis of CuMg2InS4: Insights into Optical, Piezoelectric, and Thermoelectric Properties;Journal of Electronic Materials;2023-08-01

5. Microwave-induced band gap attenuation of novel manganese zinc aluminum sulfide kesterite nanomaterials for optimal photovoltaics;Materials Today Chemistry;2023-07

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