Litcius/Paper detail

Reconfigurable Logic-in-Memory Constructed Using an Organic Antiambipolar Transistor

Ryoma Hayakawa, Kaito Takahashi, Xinhao Zhong, Kosuke Honma, Debdatta Panigrahi, Junko Aimi, Kaname Kanai, Yutaka Wakayama

2023Nano Letters29 citationsDOI

Abstract

We demonstrate an electrically reconfigurable two-input logic-in-memory (LIM) using a dual-gate-type organic antiambipolar transistor (DG-OAAT). The attractive feature of this device is that a phthalocyanine-cored star-shaped polystyrene is used as a nano-floating gate, which enables the electrical switching of individual logic circuits and stores the circuit information by the nonvolatile memory effect. First, the DG-OAAT exhibited Λ-shaped transfer curves with hysteresis by sweeping the bottom-gate voltage. Programming and erasing operations enabled the reversible shift of the Λ-shaped transfer curves. Furthermore, the top-gate voltage effectively tuned the peak voltages of the transfer curves. Consequently, the combination of dual-gate and memory effects achieved electrically reconfigurable two-input LIM operations. Individual logic circuits (e.g., OR/NAND, XOR/NOR, and AND/XOR) were reconfigured by the corresponding programming and erasing operations without any variations in the input signals. Our device concept has the potential to fulfill an epoch-making organic integration circuit with a simple device configuration.

Topics & Concepts

NAND gateLogic gateXNOR gateTransistorComputer scienceXOR gateNOR logicElectronic circuitNOR gateOR gateMaterials scienceGate equivalentVoltageAND gateNAND logicOptoelectronicsElectrical engineeringPass transistor logicElectronic engineeringGate oxideEngineeringAlgorithmAdvanced Memory and Neural ComputingNeuroscience and Neural EngineeringFerroelectric and Negative Capacitance Devices