聚集诱导发光微粒悬浮液技术显现手印的研究进展OA
Research Progress in Visualization Technology of Fingerprint Aggregation-Induced Emission Complex Suspensions
手印作为犯罪现场发现的最重要物证之一,其显现技术已经有了较大发展,但在无损、灵敏和高效检测方面仍面临诸多难题,一定程度上限制了通过手印直接认定人身.近年来,聚集诱导发光材料应用于手印显现领域日益增多,由此衍生出了聚集诱导发光微粒悬浮液显现技术,该技术具有高灵敏度、高分辨率、高稳定性和强荧光性能等特点.因此,综述了 2020年以来聚集诱导发光配合物悬浮液显现技术的国内外研究现状、应用趋势和发展前景.基于聚集诱导发光材料的高灵敏度、高分辨率、高稳定性和强荧光性能等特点,讨论了聚集诱导发光配合物悬浮液增强手印显现效果的方法,如阻断基材发射荧光、增强悬浮液荧光强度和延长悬浮液磷光发光时间,重点分析了有机小分子发光、碳点发光与金属发光配合物配制成悬浮液对不同种类、表面状态基材的显现效果,涵盖其结构、发光原理、优缺点及细胞毒性等方面,介绍了聚集诱导猝灭现象和聚集诱导发光的优势,列举了可应用于未来悬浮液显现技术的潜在聚集诱导发光纳米材料.最后,展望了聚集诱导发光配合物悬浮液在手印显现领域的发展前景.
Fingerprint,as one of the most important physical evidences found at crime scenes,has seen significant development in its visualization technology.However,it still faces numerous challenges in non-destructive,sensitive,and efficient detection,which to a certain extent limits the direct identification of individuals through fingerprints.In recent years,the application of aggregation-induced emission(AIE)materials in the field of fingerprint development has been increasing,leading to the derivation of the AIE particle suspension development technology.This technology is characterized by high sensitivity,high resolution,high stability,and strong fluorescence performance.Therefore,this review summarizes the domestic and international research status,application trends,and development prospects of AIE complex suspension development technology since 2020.Based on the characteristics of AIE materials such as high sensitivity,high resolution,high stability,and strong fluorescence performance,the methods for enhancing fingerprint development effects using AIE complex suspensions are discussed,including blocking the fluorescence emission of substrates,enhancing the fluorescence intensity of suspensions,and extending the phosphorescence lifetime of suspensions.It focuses on analyzing the development effects of suspensions prepared from organic small-molecule luminescent materials,carbon dot luminescent materials,and metal luminescent complexes on substrates of different types and surface states,covering aspects such as their structure,luminescent mechanism,advantages,disadvantages,and cytotoxicity.Additionally,it introduces the aggregation-caused quenching(ACQ)phenomenon and the advantages of AIE,and lists potential AIE nanomaterials that can be applied to suspension development technology in the future.Finally,the development prospects of AIE complex suspensions in the field of fingerprint development are prospected.
李建军;张静静;王仲来
广西警察学院刑事科学技术学院,南宁 530000广西警察学院刑事科学技术学院,南宁 530000甘肃政法大学司法警察学院,兰州 730030
化学化工
聚集诱导发光悬浮液有机小分子金属配合物显现技术
Aggregation-induced emissionSuspensionOrganic small moleculesMetal complexesVisualization technology
《应用化学》 2026 (4)
498-510,13
广西教育厅中青年课题(No.2023KY0914)、广西壮族自治区公安厅专项课题(No.2023GAQN109)和广西警察学院校级项目(No.2024KYYB02)资助 Supported by the Youth Project of Guangxi Education Department(No.2023KY0914)the Special Project of Guangxi Public Security Department(No.2023GAQN109)and the Campus Project of Guangxi Police College(No.2024KYYB02)
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