Vasilopoulou Maria, Kim Byung Soon, Kim Hyeong Pil, da Silva Wilson Jose, Schneider Fabio Kurt, Mat Teridi Mohd Asri, Gao Peng, Mohd Yusoff Abd Rashid Bin, Nazeeruddin Mohammad Khaja
Institute of Nanoscience and Nanotechnology (INN), National Center for Scientific Research (NCSR) Demokritos, 15341 Agia Paraskevi, Attica, Greece.
Electronic Materials Research Institute, Kolon Central Research Park, Mabuk-dong Yongin-si, Giheung-gu, Gyeonggi-do, South Korea.
Nano Lett. 2020 Jul 8;20(7):5081-5089. doi: 10.1021/acs.nanolett.0c01270. Epub 2020 Jun 11.
Here we use triple-cation metal-organic halide perovskite single crystals for the transistor channel of a flash memory device. Moreover, we design and demonstrate a 10 nm thick single-layer nanofloating gate. It consists of a ternary blend of two organic semiconductors, a p-type polyfluorene and an n-type fullerene that form a donor:acceptor interpenetrating network that serves as the charge storage unit, and of an insulating polystyrene that acts as the tunneling dielectric. Under such a framework, we realize the first non-volatile flash memory transistor based on a perovskite channel. This simplified, solution-processed perovskite flash memory displays unique performance metrics such as a large memory window of 30 V, an on/off ratio of 9 × 10, short write/erase times of 50 ms, and a satisfactory retention time exceeding 10 s. The realization of the first flash memory transistor using a single-crystal perovskite channel could be a valuable direction for perovskite electronics research.
在此,我们将三阳离子金属有机卤化物钙钛矿单晶用于闪存器件的晶体管通道。此外,我们设计并展示了一个10纳米厚的单层纳米浮栅。它由两种有机半导体的三元混合物组成,一种是p型聚芴,另一种是n型富勒烯,它们形成供体:受体互穿网络作为电荷存储单元,还有一种绝缘聚苯乙烯作为隧穿电介质。在这样的框架下,我们实现了首个基于钙钛矿通道的非易失性闪存晶体管。这种简化的、通过溶液处理的钙钛矿闪存展现出独特的性能指标,如30 V的大存储窗口、9×10的开/关比、50 ms的短写入/擦除时间以及超过10 s的令人满意的保留时间。使用单晶钙钛矿通道实现首个闪存晶体管可能是钙钛矿电子学研究的一个有价值的方向。
