Cubic NaSbS As an Ionic-Electronic Coupled Semiconductor for Switchable Photovoltaic and Neuromorphic Device Applications

Overview

Journal Adv Mater

Date 2020 Jan 9

PMID 31912946

Citations 8

Authors

P C Harikesh

Abhijith Surendran

Biplab Ghosh

Rohit Abraham John

Arjun Moorthy

Natalia Yantara

Teddy Salim

Krishnamoorthy Thirumal

Wei Lin Leong

Subodh Mhaisalkar

Nripan Mathews

Affiliations

Soon will be listed here.

Abstract

The recent emergence of lead halide perovskites as ionic-electronic coupled semiconductors motivates the investigation of alternative solution-processable materials with similar modulatable ionic and electronic transport properties. Here, a novel semiconductor-cubic NaSbS -for ionic-electronic coupled transport is investigated through a combined theoretical and experimental approach. The material exhibits mixed ionic-electronic conductivity in inert atmosphere and superionic conductivity in humid air. It is shown that post deposition electronic reconfigurability in this material enabled by an electric field induces ionic segregation enabling a switchable photovoltaic effect. Utilizing post-perturbation of the ionic composition of the material via electrical biasing and persistent photoconductivity, multistate memristive synapses with higher-order weight modulations are realized for neuromorphic computing, opening up novel applications with such ionic-electronic coupled materials.

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