Enhanced Photoluminescence in a Neuromorphic 2D Memitter Based on WS<sub>2</sub> via Plasmonic Nanoparticle Self-Assembly

Publication date: 5 Giu 2025

JournalSource: OPENALEXOpenAlex type: articleOpen Access
Authors: Federico Ferrarese Lupi, Gianluca Milano, Angelo Angelini, Mateo Rosero‐Realpe, Irdi Murataj, Bruno Torre, Eleonora Cara, Philipp Hönicke, André Wählisch, Erika Kozma, Diego Antonioli, Michele Laus, Alessia Motta, Christian Martella, Carlo Grazianetti

High Resolution Image Download MS PowerPoint Slide All-optical neuromorphic devices based on adaptive two-dimensional (2D) materials have the potential for mimicking the complex processing and memory capabilities of biological synapses. Recent research demonstrated synaptic plasticity and visual memory in WS 2 monolayer-based 2D memitters (i.e., an emitter with memory). However, improving their optical performances is crucial for extending their scalability. Since the neuromorphic functionalities of 2D memitters relies on O 2 and H 2 O desorption/absorption on WS 2, a careful balance between photoluminescence intensity and surface preservation is critical. Here, we investigate the enhancement of time-dependent photoluminescence response, achieved through coupling WS 2 flakes with plasmonic nanoparticles obtained by liquid phase infiltration of gold in self-assembled block copolymer micelles. The localized surface plasmon resonance of gold nanoparticles amplifies the electric field and improves light–matter interactions. This method enhances the 2D memitter optical properties while preserving its adaptive photoluminescence response, thus enabling neuromorphic behavior under optical stimuli.

Origin
ACS Applied Materials & Interfaces
Volume
17
Issue
24
Pages
35695-35704
Cited by
6