基于 Perovskite 纳米线阵列的高偏振灵敏突触晶体管用于高效生物识别

IF 18.5 1区 材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Peng Yang, Xipeng Yu, Rengjian Yu, Changsong Gao, Peng Zhang, Tao Lin, Gengxu Chen, Huipeng Chen
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引用次数: 0

摘要

在数字时代,生物识别技术受到高度重视,并被广泛应用于生物识别、安全检测和个性化医疗等领域。这就需要更高效、更多样化的提取方法。传统技术依赖于自然光,往往无法捕捉到所有必要的信息,并且面临着能耗高、组件分离导致设计笨重等问题,因此无法满足当前的高要求。本文利用纳米压印技术开发了一种基于过氧化物纳米线的偏振敏感突触光电晶体管,有效地将人工光子突触与偏振光检测集成在一起,提高了系统的集成度。值得注意的是,该器件在不同偏振角下的偏振比高达 2.2。此外,它还具有类似记忆的光突触功能,与自然光相比,指纹识别准确率提高了 225%。这项技术克服了传统光学系统的局限性,在一定程度上满足了安防、医疗和科研领域的需求。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

High Polarization-Sensitive Synaptic Transistor Based on Perovskite Nanowire Array for Efficient Biometric Recognition

High Polarization-Sensitive Synaptic Transistor Based on Perovskite Nanowire Array for Efficient Biometric Recognition
In the digital age, biometric recognition technology is highly valued and widely used in biometrics, security detection, and personalized medicine. This demands more efficient and diverse extraction methods. Traditional techniques rely on natural light, often failing to capture all necessary information and facing issues like high energy consumption and bulky design due to component separation, thus not meeting current high demands. In this paper, a polarization-sensitive synaptic phototransistor based on perovskite nanowire is developed using nanoimprint technology, effectively integrating artificial photonic synapses with polarized light detection to enhance system integration. Notably, this device achieves a high polarization ratio of 2.2 under different polarization angles. Additionally, it features memory-like optical synapse functionality, improving fingerprint recognition accuracy by 225% compared to natural light. This technology overcomes the limitations of traditional optical systems, meeting the needs of security, medical, and research fields to a certain extent.
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来源期刊
Advanced Functional Materials
Advanced Functional Materials 工程技术-材料科学:综合
CiteScore
29.50
自引率
4.20%
发文量
2086
审稿时长
2.1 months
期刊介绍: Firmly established as a top-tier materials science journal, Advanced Functional Materials reports breakthrough research in all aspects of materials science, including nanotechnology, chemistry, physics, and biology every week. Advanced Functional Materials is known for its rapid and fair peer review, quality content, and high impact, making it the first choice of the international materials science community.
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