Hudait Biswajit, Dutta Sumit Kumar, Bera Suman, Pradhan Narayan
School of Materials Sciences, Indian Association for the Cultivation of Science, Kolkata 700032, India.
Nano Lett. 2021 Jun 23;21(12):5277-5284. doi: 10.1021/acs.nanolett.1c01398. Epub 2021 Jun 1.
Lead halide perovskite nanocrystals, whether formed by their own nucleation and growth or by ion diffusion into the lattice of others, are still under investigation. Moreover, beyond isotropic nanocrystals, fabricating anisotropic perovskite nanocrystals by design has remained difficult. Exploring the lattice of orthorhombic-phase CsZnBr with the complete replacement of Zn tetrahedra by Pb octahedra, dimension-tunable anisotropic nanocrystals of CsPbBr are reported. This B-site ion introduction led to CsPbBr nanorods having [100] as major axis, in contrast with all reports on rods/wires where the lengths were along the [001] direction. This was possible by using derivatives of α-bromo ketones, which helped in tuning the shape of CsZnBr and also the facets of transformed CsPbBr. While similar experiments are extended to orthorhombic CsHgBr, standard nanorods with [001] as the major axis were observed. From these results, it is further concluded that anisotropic perovskite nanocrystals might not follow any specific rules for directional growth and instead might depend on the structure of the parent lattice.
卤化铅钙钛矿纳米晶体,无论是通过自身的成核和生长形成,还是通过离子扩散到其他晶体的晶格中形成,仍处于研究阶段。此外,除了各向同性纳米晶体,通过设计制造各向异性钙钛矿纳米晶体仍然很困难。通过用Pb八面体完全取代Zn四面体来探索正交相CsZnBr的晶格,报道了尺寸可调的各向异性CsPbBr纳米晶体。这种B位离子的引入导致CsPbBr纳米棒以[100]为长轴,这与所有关于长度沿[001]方向的棒状/线状的报道形成对比。这是通过使用α-溴代酮的衍生物实现的,它有助于调节CsZnBr的形状以及转化后的CsPbBr的晶面。当类似的实验扩展到正交相CsHgBr时,观察到以[001]为长轴的标准纳米棒。从这些结果进一步得出结论,各向异性钙钛矿纳米晶体的定向生长可能不遵循任何特定规则,而是可能取决于母体晶格的结构。
