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Highly sensitive photodetector based on laser-generated graphene with 3D heterogeneous multiscale porous structures

Shirin Movaghgharnezhad, Minsu Kim, Seung Min Lee, Heeyoung Jeong, Hyojin Kim, Byoung Gak Kim, Pilgyu Kang

2023Materials & Design17 citationsDOIOpen Access PDF

Abstract

Graphene holds great promise in optoelectronics because of its high broadband light absorption across a wide range of wavelengths. Despite low optical absorption, various techniques have been devised to address this challenge. This study presents a new highly sensitive, photodetector based on three-dimensional (3D) porous graphene derived from fluorinated polyimide (fPI-3DPG). This material is produced via a laser photothermal process and features micro- and nanopore structures that increase the light absorbing area and support optically resonant structures. The resulting fPI-3DPG photodetectors display high photoresponsivity of 4.4 mA W−1 in the visible light range, an ultrahigh signal-to-noise ratio of ∼208, and a noise equivalent power of 0.54 × 10−11 W Hz−1/2. These photodetectors are also mechanically durable, surviving 10,000 cycles of bending and twisting. The laser photothermal method used in this study enables fast, cost effective production of wearable and flexible optical sensors for imaging and spectroscopy applications, making this 3D graphene a promising functional material for sensing technologies.

Topics & Concepts

Materials sciencePhotodetectorGrapheneOptoelectronicsPhotothermal therapyPhotodetectionLaserAbsorption (acoustics)NanoporeOpticsNanotechnologyComposite materialPhysicsGraphene research and applicationsGas Sensing Nanomaterials and SensorsTransition Metal Oxide Nanomaterials
Highly sensitive photodetector based on laser-generated graphene with 3D heterogeneous multiscale porous structures | Litcius