Chiral perovskites have emerged as a new class of nanomaterials for manipulation and control of spin polarized current and circularly polarized light for applications in spintronics, chiro-optoelectronics, and chiral photonics. While significant effort has been made in discovering and optimizing strategies to synthesize different forms of chiral perovskites, the mechanism through which chirality is imbued onto the perovskites by chiral surface ligands remains unclear. In this minireview, we provide a detailed discussion of one of the proposed mechanisms, electronic imprinting from a chiral ligand.

中文翻译：

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影响钙钛矿纳米颗粒中手性印记的因素


手性钙钛矿已成为一类新型纳米材料，用于操纵和控制自旋偏振电流和圆偏振光，用于自旋电子学、手性光电子学和手性光子学。虽然在发现和优化合成不同形式的手性钙钛矿的策略方面已经做出了重大努力，但手性表面配体将手性注入钙钛矿的机制仍不清楚。在本小型综述中，我们详细讨论了其中一种拟议的机制，即来自手性配体的电子印迹。