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Soci, Cesare
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Topics
Publications (16/16 displayed)
- 2024Hole Localization in Bulk and 2D Lead-Halide Perovskites Studied by Time-Resolved Infrared Spectroscopycitations
- 2023Asynchronous Charge Carrier Injection in Perovskite Light-Emitting Transistorscitations
- 2023Light-emitting field-effect transistors (LET) based on metal halide perovskitescitations
- 2023Color-Tunable Mixed-Cation Perovskite Single Photon Emitterscitations
- 2020Large Polaron Self-Trapped States in Three-Dimensional Metal-Halide Perovskitescitations
- 2020Mixed-Dimensional Naphthylmethylammonium-Methylammonium Lead Iodide Perovskites with Improved Thermal Stabilitycitations
- 2019Solution Processed Polymer-ABX4 Perovskite-Like Microcavitiescitations
- 2019All-polymer methylammonium lead iodide perovskite microcavitiescitations
- 2018Black GaAs by Metal-Assisted Chemical Etchingcitations
- 2018Engineering the Emission of Broadband 2D Perovskites by Polymer Distributed Bragg Reflectorscitations
- 2016Lithography assisted fiber-drawing nanomanufacturingcitations
- 2015Amorphous metal-sulphide microfibers enable photonic synapses for brain-like computingcitations
- 2015Polymer distributed bragg reflectors for vapor sensingcitations
- 2015Hybrid ZnO:polystyrene nanocomposite for all-polymer photonic crystalscitations
- 2007Anisotropic photoluminescence properties of oriented poly(p-phenylene-vinylene) films: Effects of dispersion of optical constantscitations
- 2003Morphology and optical properties of bare and polydiacetylenes-infiltrated opalscitations
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article
Amorphous metal-sulphide microfibers enable photonic synapses for brain-like computing
Abstract
The human brain, with all its complexity, relies on an interconnected network of organic biological microfibers, known as neurons, which facilitate the propagation of information across the body. Through the use of electrical action potentials, these signals are processed using different spatio-temporal principles that rely on the biochemical nature of axons (used for information propagation) and synapses (highly variable junctions), which make up the mammalian neurobiological system. This manifests itself in the adaptable nature of the human cognition that makes us capable of learning through experiences.