Division of Physical Sciences and Engineering, King Abdullah University of Science and Technology (KAUST) , Thuwal 23955-6900, Saudi Arabia.
KAUST Solar Center, King Abdullah University of Science and Technology (KAUST) , Thuwal 23955-6900, Saudi Arabia.
Nano Lett. 2017 Aug 9;17(8):4759-4767. doi: 10.1021/acs.nanolett.7b01475. Epub 2017 Jul 7.
Unintentional self-doping in semiconductors through shallow defects is detrimental to optoelectronic device performance. It adversely affects junction properties and it introduces electronic noise. This is especially acute for solution-processed semiconductors, including hybrid perovskites, which are usually high in defects due to rapid crystallization. Here, we uncover extremely low self-doping concentrations in single crystals of the two-dimensional perovskites (CHCHNH)PbI·(CHNHPbI) (n = 1, 2, and 3), over three orders of magnitude lower than those of typical three-dimensional hybrid perovskites, by analyzing their conductivity behavior. We propose that crystallization of hybrid perovskites containing large organic cations suppresses defect formation and thus favors a low self-doping level. To exemplify the benefits of this effect, we demonstrate extraordinarily high light-detectivity (10 Jones) in (CHCHNH)PbI·(CHNHPbI) photoconductors due to the reduced electronic noise, which makes them particularly attractive for the detection of weak light signals. Furthermore, the low self-doping concentration reduces the equilibrium charge carrier concentration in (CHCHNH)PbI·(CHNHPbI), advantageous in the design of p-i-n heterojunction solar cells by optimizing band alignment and promoting carrier depletion in the intrinsic perovskite layer, thereby enhancing charge extraction.
半导体中浅能级的非故意自掺杂会损害光电设备的性能。它会对结特性产生不利影响,并引入电子噪声。对于溶液处理的半导体来说,这尤其严重,包括混合钙钛矿,由于快速结晶,它们通常具有较高的缺陷。在这里,我们通过分析其电导率行为,揭示了二维钙钛矿(CHCHNH)PbI·(CHNHPbI)(n = 1、2 和 3)单晶中极低的自掺杂浓度,比典型的三维混合钙钛矿低三个数量级。我们提出,含有大有机阳离子的混合钙钛矿的结晶抑制了缺陷的形成,从而有利于低自掺杂水平。为了说明这种效应的好处,我们在(CHCHNH)PbI·(CHNHPbI)光电导体内证明了极高的光探测率(10 琼斯),因为电子噪声降低,这使得它们特别适合检测弱光信号。此外,低自掺杂浓度降低了(CHCHNH)PbI·(CHNHPbI)中的平衡载流子浓度,这有利于通过优化能带排列和促进本征钙钛矿层中的载流子耗尽来设计 p-i-n 异质结太阳能电池,从而增强电荷提取。
