Abstract
Due to its unique I-V property, memristor is considered to be the key device for artificial intelligence application. Among the alternative memristor materials, organometal trihalide perovskite (OTP) follow with interest in photoelectric coupling area with excellent light absorption ability. However, the power consumption of OTP memristor still remains to be reduced. Here, Cs0.05(FAxMA1?x)0.95PbIyBr3?y (CsFAMAPbIBr) with prominent photoresponse property is used as the functional layer of the memristor. Maximum high resistance state (HRS)/low resistance state (LRS) (~100) and maximum power of 9.8 × 10?9 W is reached under small voltage (?1 V~1 V) with W/OTP/Al structure. Since the oxide modification layer acts as a series resistance for the device, when 90 nm thickness of zinc oxide layer is added to the W/OTP interface, the power consumption of the device is reduced by an order of magnitude. Then, the maximum power of the device decreases by two orders of magnitude (to 2.5 × 10?11 W) under 2 mW/cm2 light condition, and the phenomenon called negative photoconductance (NPC) effect that defined as an increase in resistance upon exposure to illumination. Through the optical and oxide modification, OTP memristor with low power consumption is achieved.
NSTL
Elsevier