Litcius/Paper detail

Vertical plane depth‐resolved surface potential and carrier separation characteristics in flexible CZTSSe solar cells with over 12% efficiency

Dae‐Ho Son, Ha Kyung Park, Dae‐Hwan Kim, Jin‐Kyu Kang, Shi‐Joon Sung, Dae‐Kue Hwang, Jaebaek Lee, Dong‐Hwan Jeon, Yunae Cho, William Jo, Taeseon Lee, JunHo Kim, Sang‐Hoon Nam, Kee‐Jeong Yang

2024Carbon Energy12 citationsDOIOpen Access PDF

Abstract

Abstract Cu 2 ZnSn(S,Se) 4 (CZTSSe) solar cells have resource distribution and economic advantages. The main cause of their low efficiency is carrier loss resulting from recombination of photo‐generated electron and hole. To overcome this, it is important to understand their electron‐hole behavior characteristics. To determine the carrier separation characteristics, we measured the surface potential and the local current in terms of the absorber depth. The elemental variation in the intragrains (IGs) and at the grain boundaries (GBs) caused a band edge shift and bandgap ( E g ) change. At the absorber surface and subsurface, an upward E c and E v band bending structure was observed at the GBs, and the carrier separation was improved. At the absorber center, both upward E c and E v and downward E c ‐upward E v band bending structures were observed at the GBs, and the carrier separation was degraded. To improve the carrier separation and suppress carrier recombination, an upward E c and E v band bending structure at the GBs is desirable.

Topics & Concepts

Band bendingMaterials scienceCarrier lifetimeBand gapEnhanced Data Rates for GSM EvolutionRecombinationBendingElectronOptoelectronicsSolar cellSiliconComposite materialChemistryPhysicsTelecommunicationsGeneComputer scienceBiochemistryQuantum mechanicsChalcogenide Semiconductor Thin FilmsQuantum Dots Synthesis And PropertiesCopper-based nanomaterials and applications
Vertical plane depth‐resolved surface potential and carrier separation characteristics in flexible CZTSSe solar cells with over 12% efficiency | Litcius