Department of Materials Science and Engineering, Monash University, Clayton, Victoria, 3800, Australia.
CSIRO Manufacturing, Ian Wark Laboratories, Clayton, Victoria, 3168, Australia.
Angew Chem Int Ed Engl. 2017 Oct 2;56(41):12486-12491. doi: 10.1002/anie.201703786. Epub 2017 Jul 4.
Organo-lead halide perovskites (OHPs) have recently emerged as a new class of exceptional optoelectronic materials, which may find use in many applications, including solar cells, light emitting diodes, and photodetectors. More complex applications, such as lasers and electro-optic modulators, require the use of monocrystalline perovskite materials to reach their ultimate performance levels. Conventional methods for forming single crystals of OHPs like methylammonium lead bromide (MAPbBr ) afford limited control over the product morphology, rendering the assembly of defined microcavity nanostructures difficult. We overcame this by synthesizing for the first time (MA)[PbBr ]⋅DMF (1), and demonstrating its facile transformation into monocrystalline MAPbBr microplatelets. The MAPbBr microplatelets were tailored into waveguide based photonic devices, of which an ultra-low propagation loss of 0.04 dB μm for a propagation distance of 100 μm was demonstrated. An efficient active electro-optical modulator (AEOM) consisting of a MAPbBr non-linear arc waveguide was demonstrated, exhibiting a 98.4 % PL intensity modulation with an external voltage of 45 V. This novel synthetic approach, as well as the demonstration of effective waveguiding, will pave the way for developing a wide range of photonic devices based on organo-lead halide perovskites.
有机-铅卤钙钛矿(OHPs)最近作为一类新型的卓越光电材料出现,可能在许多应用中得到应用,包括太阳能电池、发光二极管和光电探测器。更复杂的应用,如激光和电光调制器,需要使用单晶钙钛矿材料来达到其最终性能水平。用于形成卤化甲基铵铅(MAPbBr )等 OHPs 单晶的传统方法对产品形态的控制有限,使得难以组装出定义明确的微腔纳米结构。我们通过首次合成(MA)[PbBr ]⋅DMF(1)克服了这一问题,并证明了其易于转化为单晶 MAPbBr 微板。将 MAPbBr 微板定制成基于波导的光子器件,在 100 μm 的传播距离下,其传播损耗低至 0.04 dB μm。展示了由 MAPbBr 非线性弧形波导组成的高效主动电光调制器(AEOM),在 45 V 的外加电压下,其 PL 强度调制达到 98.4%。这种新颖的合成方法以及有效波导的演示将为基于有机-铅卤钙钛矿的各种光子器件的开发铺平道路。
