Recent progress in photovoltaic and thermoelectric applications of coupled colloidal quantum dot solids: insights into charge transport fundamentals

Aditi Manna, N. Ray
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Abstract

Colloidal quantum dots (QDs) have emerged as transformative materials with diverse properties, holding tremendous promise for reshaping the landscape of photovoltaics and thermoelectrics. Emphasizing the pivotal role of surface ligands, ranging from extended hydrocarbon chains to intricate metal chalcogenide complexes, halides, and hybrid ligands, we underscore their influence on the electronic behavior of the assembly. The ability to tailor interdot coupling can have profound effects on charge transport, making colloidal QDs a focal point for research aimed at enhancing the efficiency and performance of energy conversion devices. This perspective provides insights into the multifaceted realm of QD solids, starting from fundamentals of charge transport through the coupled assemblies. We delve into recent breakthroughs, spotlighting champion devices across various architectures and elucidating the sequential advancements that have significantly elevated efficiency levels.
耦合胶体量子点固体在光伏和热电应用方面的最新进展:对电荷传输基本原理的见解
胶体量子点(QDs)是一种具有多种特性的变革性材料,有望重塑光伏和热电领域的格局。我们强调表面配体的关键作用,从延伸的碳氢化合物链到复杂的金属瑀络合物、卤化物和混合配体,我们强调它们对组装体电子行为的影响。定制点间耦合的能力可对电荷传输产生深远影响,从而使胶体 QD 成为旨在提高能量转换设备效率和性能的研究焦点。本文从电荷通过耦合组件传输的基本原理出发,深入探讨了 QD 固体的多面性。我们深入探讨了最近取得的突破,重点介绍了各种结构的冠军器件,并阐明了显著提高效率水平的连续进展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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