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Infrared visualized snakes-inspired artificial vision systems with CMOS sensors-integrated upconverters

Ge Mu, Yangye Lin, Kai‐Mei C. Fu, Xin Tang

2025Light Science & Applications9 citationsDOIOpen Access PDF

Abstract

Abstract Biological visions have inspired the development of artificial vision systems with diverse visual functional traits, however, the detected wavelength is only in visible light between 0.4 and 0.78 μm, restricting their applications. Snakes generate a thermal image of animals due to pit organs for detecting and converting infrared, allowing them to accurately target predators or prey even under darkness. Inspired by natural infrared visualized snakes, we propose artificial vision systems with CMOS sensors-integrated upconverters to break visible light limitations to realize 3840 × 2160 ultra-high-resolution short-wave infrared (SWIR) and mid-wave infrared (MWIR) visualization imaging for the first time. Through colloidal quantum dot barrier heterojunction architecture design of infrared detecting units and the introduction of co-hosted emitting units, the luminance and upconversion efficiency reach up to 6388.09 cd m −2 and 6.41% for SWIR, 1311.64 cd m −2 and 4.06% for MWIR at room temperature. Our artificial vision systems broaden a wide spectrum of applications within infrared, such as night vision, agricultural science, and industry inspection, marking a significant advance in bioartificial vision.

Topics & Concepts

InfraredCMOSComputer scienceArtificial intelligenceComputer visionArtificial visionRemote sensingOptoelectronicsOpticsMaterials sciencePhysicsGeologyAdvanced Memory and Neural ComputingCCD and CMOS Imaging SensorsGas Sensing Nanomaterials and Sensors
Infrared visualized snakes-inspired artificial vision systems with CMOS sensors-integrated upconverters | Litcius