Jeon Jong-Ok, Lee Kee Doo, Seul Oh Lee, Seo Se-Won, Lee Doh-Kwon, Kim Honggon, Jeong Jeung-hyun, Ko Min Jae, Kim BongSoo, Son Hae Jung, Kim Jin Young
Photo-electronic Hybrids Research Center, Korea Institute of Science and Technology (KIST), Seoul 136-791 (South Korea); Department of Nanomaterials Science and Engineering, University of Science and Technology, Daejeon 305-350 (South Korea).
ChemSusChem. 2014 Apr;7(4):1073-7. doi: 10.1002/cssc.201301347. Epub 2014 Apr 1.
Highly efficient copper-zinc-tin-selenide (Cu2ZnSnSe4 ; CZTSe) thin-film solar cells are prepared via the electrodepostion technique. A metallic alloy precursor (CZT) film with a Cu-poor, Zn-rich composition is directly deposited from a single aqueous bath under a constant current, and the precursor film is converted to CZTSe by annealing under a Se atmosphere at temperatures ranging from 400 °C to 600 °C. The crystallization of CZTSe starts at 400 °C and is completed at 500 °C, while crystal growth continues at higher temperatures. Owing to compromises between enhanced crystallinity and poor physical properties, CZTSe thin films annealed at 550 °C exhibit the best and most-stable device performances, reaching up to 8.0 % active efficiency; among the highest efficiencies for CZTSe thin-film solar cells prepared by electrodeposition. Further analysis of the electronic properties and a comparison with another state-of-the-art device prepared from a hydrazine-based solution, suggests that the conversion efficiency can be further improved by optimizing parameters such as film thickness, antireflection coating, MoSe2 formation, and p-n junction properties.
通过电沉积技术制备了高效的铜锌锡硒(Cu2ZnSnSe4;CZTSe)薄膜太阳能电池。在恒定电流下,从单一水溶液浴中直接沉积出具有贫铜、富锌成分的金属合金前驱体(CZT)薄膜,然后在400℃至600℃的硒气氛下通过退火将前驱体薄膜转化为CZTSe。CZTSe的结晶在400℃开始并在500℃完成,而晶体生长在更高温度下继续。由于增强的结晶度和较差的物理性能之间的权衡,在550℃退火的CZTSe薄膜表现出最佳和最稳定的器件性能,活性效率高达8.0%;这是通过电沉积制备的CZTSe薄膜太阳能电池的最高效率之一。对电子性能的进一步分析以及与另一种由肼基溶液制备的先进器件的比较表明,通过优化诸如薄膜厚度、抗反射涂层、MoSe2形成和p-n结性能等参数,可以进一步提高转换效率。
