Self-powered and broadband opto-sensor with bionic visual adaptation function based on multilayer γ-InSe flakes
Visual adaptation that can autonomously adjust the response to light stimuli is a basic function of artificial visual systems for intelligent bionic robots. To improve efficiency and reduce complexity, artificial visual systems with integrated visual adaptation functions based on a single device sho...
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| Published in | Light, science & applications Vol. 12; no. 1; pp. 180 - 11 |
|---|---|
| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Nature Publishing Group UK
24.07.2023
Springer Nature B.V Nature Publishing Group |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Visual adaptation that can autonomously adjust the response to light stimuli is a basic function of artificial visual systems for intelligent bionic robots. To improve efficiency and reduce complexity, artificial visual systems with integrated visual adaptation functions based on a single device should be developed to replace traditional approaches that require complex circuitry and algorithms. Here, we have developed a single two-terminal opto-sensor based on multilayer γ-InSe flakes, which successfully emulated the visual adaptation behaviors with a new working mechanism combining the photo-pyroelectric and photo-thermoelectric effect. The device can operate in self-powered mode and exhibit good human-eye-like adaptation behaviors, which include broadband light-sensing image adaptation (from ultraviolet to near-infrared), near-complete photosensitivity recovery (99.6%), and synergetic visual adaptation, encouraging the advancement of intelligent opto-sensors and machine vision systems.
A single two-terminal opto-sensor based on multilayer γ-InSe flakes was developed and successfully emulated human-eye-like adaptation behaviors, which could motivate the further development of advanced opto-sensors and artificial visual systems. |
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| AbstractList | Visual adaptation that can autonomously adjust the response to light stimuli is a basic function of artificial visual systems for intelligent bionic robots. To improve efficiency and reduce complexity, artificial visual systems with integrated visual adaptation functions based on a single device should be developed to replace traditional approaches that require complex circuitry and algorithms. Here, we have developed a single two-terminal opto-sensor based on multilayer γ-InSe flakes, which successfully emulated the visual adaptation behaviors with a new working mechanism combining the photo-pyroelectric and photo-thermoelectric effect. The device can operate in self-powered mode and exhibit good human-eye-like adaptation behaviors, which include broadband light-sensing image adaptation (from ultraviolet to near-infrared), near-complete photosensitivity recovery (99.6%), and synergetic visual adaptation, encouraging the advancement of intelligent opto-sensors and machine vision systems.Visual adaptation that can autonomously adjust the response to light stimuli is a basic function of artificial visual systems for intelligent bionic robots. To improve efficiency and reduce complexity, artificial visual systems with integrated visual adaptation functions based on a single device should be developed to replace traditional approaches that require complex circuitry and algorithms. Here, we have developed a single two-terminal opto-sensor based on multilayer γ-InSe flakes, which successfully emulated the visual adaptation behaviors with a new working mechanism combining the photo-pyroelectric and photo-thermoelectric effect. The device can operate in self-powered mode and exhibit good human-eye-like adaptation behaviors, which include broadband light-sensing image adaptation (from ultraviolet to near-infrared), near-complete photosensitivity recovery (99.6%), and synergetic visual adaptation, encouraging the advancement of intelligent opto-sensors and machine vision systems. Visual adaptation that can autonomously adjust the response to light stimuli is a basic function of artificial visual systems for intelligent bionic robots. To improve efficiency and reduce complexity, artificial visual systems with integrated visual adaptation functions based on a single device should be developed to replace traditional approaches that require complex circuitry and algorithms. Here, we have developed a single two-terminal opto-sensor based on multilayer γ-InSe flakes, which successfully emulated the visual adaptation behaviors with a new working mechanism combining the photo-pyroelectric and photo-thermoelectric effect. The device can operate in self-powered mode and exhibit good human-eye-like adaptation behaviors, which include broadband light-sensing image adaptation (from ultraviolet to near-infrared), near-complete photosensitivity recovery (99.6%), and synergetic visual adaptation, encouraging the advancement of intelligent opto-sensors and machine vision systems. A single two-terminal opto-sensor based on multilayer γ-InSe flakes was developed and successfully emulated human-eye-like adaptation behaviors, which could motivate the further development of advanced opto-sensors and artificial visual systems. Visual adaptation that can autonomously adjust the response to light stimuli is a basic function of artificial visual systems for intelligent bionic robots. To improve efficiency and reduce complexity, artificial visual systems with integrated visual adaptation functions based on a single device should be developed to replace traditional approaches that require complex circuitry and algorithms. Here, we have developed a single two-terminal opto-sensor based on multilayer γ-InSe flakes, which successfully emulated the visual adaptation behaviors with a new working mechanism combining the photo-pyroelectric and photo-thermoelectric effect. The device can operate in self-powered mode and exhibit good human-eye-like adaptation behaviors, which include broadband light-sensing image adaptation (from ultraviolet to near-infrared), near-complete photosensitivity recovery (99.6%), and synergetic visual adaptation, encouraging the advancement of intelligent opto-sensors and machine vision systems.A single two-terminal opto-sensor based on multilayer γ-InSe flakes was developed and successfully emulated human-eye-like adaptation behaviors, which could motivate the further development of advanced opto-sensors and artificial visual systems. Visual adaptation that can autonomously adjust the response to light stimuli is a basic function of artificial visual systems for intelligent bionic robots. To improve efficiency and reduce complexity, artificial visual systems with integrated visual adaptation functions based on a single device should be developed to replace traditional approaches that require complex circuitry and algorithms. Here, we have developed a single two-terminal opto-sensor based on multilayer γ-InSe flakes, which successfully emulated the visual adaptation behaviors with a new working mechanism combining the photo-pyroelectric and photo-thermoelectric effect. The device can operate in self-powered mode and exhibit good human-eye-like adaptation behaviors, which include broadband light-sensing image adaptation (from ultraviolet to near-infrared), near-complete photosensitivity recovery (99.6%), and synergetic visual adaptation, encouraging the advancement of intelligent opto-sensors and machine vision systems. Abstract Visual adaptation that can autonomously adjust the response to light stimuli is a basic function of artificial visual systems for intelligent bionic robots. To improve efficiency and reduce complexity, artificial visual systems with integrated visual adaptation functions based on a single device should be developed to replace traditional approaches that require complex circuitry and algorithms. Here, we have developed a single two-terminal opto-sensor based on multilayer γ-InSe flakes, which successfully emulated the visual adaptation behaviors with a new working mechanism combining the photo-pyroelectric and photo-thermoelectric effect. The device can operate in self-powered mode and exhibit good human-eye-like adaptation behaviors, which include broadband light-sensing image adaptation (from ultraviolet to near-infrared), near-complete photosensitivity recovery (99.6%), and synergetic visual adaptation, encouraging the advancement of intelligent opto-sensors and machine vision systems. |
| ArticleNumber | 180 |
| Author | Liu, Yichun Feng, Qiushi Yang, Xuhui Xie, Xiuhua Li, Jixiu Liu, Weizhen Wang, Zhongqiang Li, Yuanzheng Xin, Wei Xu, Haiyang |
| Author_xml | – sequence: 1 givenname: Weizhen surname: Liu fullname: Liu, Weizhen organization: Key Laboratory of UV-Emitting Materials and Technology of Ministry of Education, Northeast Normal University – sequence: 2 givenname: Xuhui surname: Yang fullname: Yang, Xuhui organization: Key Laboratory of UV-Emitting Materials and Technology of Ministry of Education, Northeast Normal University – sequence: 3 givenname: Zhongqiang surname: Wang fullname: Wang, Zhongqiang organization: Key Laboratory of UV-Emitting Materials and Technology of Ministry of Education, Northeast Normal University – sequence: 4 givenname: Yuanzheng orcidid: 0000-0002-4309-0160 surname: Li fullname: Li, Yuanzheng email: liyz264@nenu.edu.cn organization: Key Laboratory of UV-Emitting Materials and Technology of Ministry of Education, Northeast Normal University – sequence: 5 givenname: Jixiu surname: Li fullname: Li, Jixiu organization: Key Laboratory of UV-Emitting Materials and Technology of Ministry of Education, Northeast Normal University – sequence: 6 givenname: Qiushi surname: Feng fullname: Feng, Qiushi organization: Key Laboratory of UV-Emitting Materials and Technology of Ministry of Education, Northeast Normal University – sequence: 7 givenname: Xiuhua surname: Xie fullname: Xie, Xiuhua organization: State Key Laboratory of Luminescence and Applications, Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences – sequence: 8 givenname: Wei orcidid: 0000-0002-1887-7535 surname: Xin fullname: Xin, Wei organization: Key Laboratory of UV-Emitting Materials and Technology of Ministry of Education, Northeast Normal University – sequence: 9 givenname: Haiyang surname: Xu fullname: Xu, Haiyang email: hyxu@nenu.edu.cn organization: Key Laboratory of UV-Emitting Materials and Technology of Ministry of Education, Northeast Normal University – sequence: 10 givenname: Yichun surname: Liu fullname: Liu, Yichun organization: Key Laboratory of UV-Emitting Materials and Technology of Ministry of Education, Northeast Normal University |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/37488112$$D View this record in MEDLINE/PubMed |
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| Snippet | Visual adaptation that can autonomously adjust the response to light stimuli is a basic function of artificial visual systems for intelligent bionic robots. To... Abstract Visual adaptation that can autonomously adjust the response to light stimuli is a basic function of artificial visual systems for intelligent bionic... |
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| Title | Self-powered and broadband opto-sensor with bionic visual adaptation function based on multilayer γ-InSe flakes |
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