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Van der Waals Heterojunction Based Self‐Powered Biomimetic Dual‐Mode Sensor for Precise Object Identification

Xu He, Xinxu Zhu, Zhaoan Hong, Bi‐Cheng Wang, Wenting Hong, Yu Yao, Fapeng Sun, Qian Cai, Gang Xu, Wei Liu

2024Advanced Materials21 citationsDOIOpen Access PDF

Abstract

Abstract The design and fabrication of materials that can concurrently respond to light and gas within the dual‐modal recognition domain present a significant challenge due to contradictory structural requirements. This innovative strategy introduces a type‐I heterojunction, combining the properties of Sb 2 Te 3 and WSe 2 nanosheets, to overcome these obstacles. The heterojunction is prepared through a precise stacking approach to create a single‐side barrier on the valence band and a near‐zero offset on the conduction band. The resulting Sb 2 Te 3 /WSe 2 heterojunction demonstrates unparalleled performance, showcasing the best integrated photoelectric and gas sensing performance in a single device to date. Based on the above features, the heterojunction successfully integrates visual and olfactory sensing performance, achieving the first biomimetic visual‐olfactory dual‐mode recognition in a single device. This simulation increased the accuracy of distinguishing electric and fuel‐powered cars from ≈50% to ≈96%. This work introduces a novel approach to creating efficient, self‐powered sensing materials, paving the way for next‐generation biomimetic dual‐model devices with broad applications in environmental protection, medical care, and other fields.

Topics & Concepts

HeterojunctionMaterials scienceStackingOptoelectronicsDual modeNanotechnologyvan der Waals forceComputer scienceElectronic engineeringMoleculeEngineeringNuclear magnetic resonancePhysicsChemistryOrganic chemistryGas Sensing Nanomaterials and Sensors2D Materials and ApplicationsPerovskite Materials and Applications
Van der Waals Heterojunction Based Self‐Powered Biomimetic Dual‐Mode Sensor for Precise Object Identification | Litcius