Improved Quality Absorber Layer of I–III–VI₂ Compound Semiconductors: Purification Process Revisited

Abstract: Copper–indium–gallium–selenide (CIGSe) is one of the most stable and promising materials for photovoltaic applications. Herein, the synthesis process of CIGSe nanocrystals using a tri‐octyl phosphine/tri‐octyl phosphine oxide (TOP/TOPO) method that has the shortest duration (≈45 min), as compared to other nonvacuum‐based approaches, is reported. Most solution‐based approaches are Se‐deficient and therefore utilize a post‐selenization process such as rapid thermal processing (RTP) at a high temperature to form … Show more

“…These qualities have been achieved with flexible and fiber‐shaped integrated devices that have come up in recent advances . The integration of new‐generation solar cells (DSSCs, CIGS, perovskite solar cells, silicon solar cells, and organic solar cells) and chemical energy storage technologies (Lithium‐ion batteries, Supercapacitors) allow us to capture the solar energy efficiently and store it flexibly …”

A review on spectral converting nanomaterials as a photoanode layer in dye‐sensitized solar cells with implementation in energy storage devices

“…These qualities have been achieved with flexible and fiber‐shaped integrated devices that have come up in recent advances . The integration of new‐generation solar cells (DSSCs, CIGS, perovskite solar cells, silicon solar cells, and organic solar cells) and chemical energy storage technologies (Lithium‐ion batteries, Supercapacitors) allow us to capture the solar energy efficiently and store it flexibly …”

A review on spectral converting nanomaterials as a photoanode layer in dye‐sensitized solar cells with implementation in energy storage devices

Photoelectrochemical performance of MWCNT–Ag–ZnO ternary hybrid: a study of Ag loading and MWCNT garnishing

A solution-route processed multicomponent Cu2ZnSn (S1-x Sex)4 nanocrystals: A potential low-cost photocatalyst