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Chelated tin halide perovskite for near-infrared neuromorphic imaging array enabling object recognition and motion perception

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Publicado en:Nature Communications vol. 16, no. 1 (2025), p. 4261
Publicado:
Nature Publishing Group
Materias:
Lead free
Time dependence
Backplanes
Crystallization
Optoelectronics
Pattern recognition
Photoelectric effect
Toxicity
Photoelectric emission
Data integration
Semiconductor devices
Thin films
Infrared imaging
Energy consumption
Tin
Perovskites
Motion perception
Thin film transistors
Chelates
Arrays
Motion detection
Perception
Surveillance
Object recognition
Quercetin
Real time
Synapses
I.R. radiation
Surveillance systems
Environmental
Acceso en línea:Citation/Abstract
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Resumen:Neuromorphic imaging arrays integrate sensing, memory, and processing for efficient spatiotemporal fusion, enabling intelligent object and motion recognition in autonomous and surveillance systems. Halide perovskites offer potential for neuromorphic imaging by regulating photogenerated ions and charges, but lead toxicity and limited response range remain key limitations. Here, we present lead-free non-toxic formamidinium tin triiodide perovskites functionalized with bio-friendly quercetin molecules via a multi-site chelate strategy, achieving favorable near-infrared response and optoelectronic properties. Leveraging a non-equilibrium photogenerated carrier strategy, the formamidinium tin triiodide-quercetin based near-infrared optoelectronic synapses exhibit key synaptic features for practical applications, including quasi-linear time-dependent photocurrent generation, prolonged photocurrent decay, high stability, and low energy consumption. Ultimately, a 12 × 12 real-time neuromorphic near-infrared imaging array is constructed on thin-film transistor backplanes, enabling hardware-level spatiotemporal fusion for robust object recognition and motion perception in complex environments for autonomous and surveillance systems.Liu et al. report the multi-site chelate effect using quercetin for Sn2+ and retarding crystallisation in FASnI3-based optoelectronic synapse. 12 × 12 real-time NIR imaging array enables spatiotemporal information fusion for object recognition, enhancement, and motion perception in complex conditions.
ISSN:2041-1723
DOI:10.1038/s41467-025-59624-2
Fuente:Health & Medical Collection