Demystifying the coordination polymers triggered fluorescence immunoassay: State of the art and future perspectives

•CPs including metal–organic frameworks (MOFs) and infinite coordination polymers (ICPs).•CPs with immense feasibility in manufacturing of sensing platforms for specific applications.•The fluorescence mechanism of CPs and general fluorescence sensing mechanism were summarized.•Profiling the mechanis...

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Published inCoordination chemistry reviews Vol. 488; p. 215188
Main Authors Zhang, Qunzheng, Lu, Chengyi, Wang, Ruifei, Han, Weiwei, Ke, Congye, Wang, Sichang, Zhang, Xunli, Wang, Jianlong
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.08.2023
Subjects
Coordination chemistry
Coordination polymers
Fluorescence
Immunoassay
Mechanism
Fluorescence
Immunoassay
Coordination polymers
Coordination chemistry
Mechanism
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Abstract •CPs including metal–organic frameworks (MOFs) and infinite coordination polymers (ICPs).•CPs with immense feasibility in manufacturing of sensing platforms for specific applications.•The fluorescence mechanism of CPs and general fluorescence sensing mechanism were summarized.•Profiling the mechanism and advances of CPs-driven fluorescence immunoassay.•Discussing the challenges and perspectives in CPs-based fluorescence immunoassay. Fluorescence immunoassay has shown attractive potential for advancing public health due to its merits of integrating the superior specificity of immunological recognition and brilliant sensitivity of fluorescence sensors. Over the past decades, coordination polymers (CPs) have been actively pursued in the construction of fluorescence immunoassays because of their propensity for surface engineering, high compositional diversity and structural flexibility. These virtues endow CPs with immense feasibility in the target-oriented manufacturing of sensing platforms for specific applications. Despite the fact that numerous reviews on luminescent CPs or immunoassays from various perspectives have been published, a comprehensive review of CPs-based fluorescence immunoassay with sensing subjects is still lacking, and it must be organized in an all-inclusive manner with an in-depth discussion of the detection mechanisms. To better facilitate the development of this field, the fluorescence mechanism of CPs, general fluorescence sensing mechanism, and mechanism of CPs-driven fluorescence immunoassay was demystified before systematically highlighting the current state of the art in this field. Accordingly, recent applications were discussed after being classified into four categories based on the function of CPs, including direct use-, disintegration-, reaction-, and mediated-type. The objective of this review is to provide readers with an extensive overview, prospective challenges, and future perspectives for rational design of CPs-based fluorescence immunoassays.
AbstractList •CPs including metal–organic frameworks (MOFs) and infinite coordination polymers (ICPs).•CPs with immense feasibility in manufacturing of sensing platforms for specific applications.•The fluorescence mechanism of CPs and general fluorescence sensing mechanism were summarized.•Profiling the mechanism and advances of CPs-driven fluorescence immunoassay.•Discussing the challenges and perspectives in CPs-based fluorescence immunoassay. Fluorescence immunoassay has shown attractive potential for advancing public health due to its merits of integrating the superior specificity of immunological recognition and brilliant sensitivity of fluorescence sensors. Over the past decades, coordination polymers (CPs) have been actively pursued in the construction of fluorescence immunoassays because of their propensity for surface engineering, high compositional diversity and structural flexibility. These virtues endow CPs with immense feasibility in the target-oriented manufacturing of sensing platforms for specific applications. Despite the fact that numerous reviews on luminescent CPs or immunoassays from various perspectives have been published, a comprehensive review of CPs-based fluorescence immunoassay with sensing subjects is still lacking, and it must be organized in an all-inclusive manner with an in-depth discussion of the detection mechanisms. To better facilitate the development of this field, the fluorescence mechanism of CPs, general fluorescence sensing mechanism, and mechanism of CPs-driven fluorescence immunoassay was demystified before systematically highlighting the current state of the art in this field. Accordingly, recent applications were discussed after being classified into four categories based on the function of CPs, including direct use-, disintegration-, reaction-, and mediated-type. The objective of this review is to provide readers with an extensive overview, prospective challenges, and future perspectives for rational design of CPs-based fluorescence immunoassays.
ArticleNumber 215188
Author Wang, Ruifei
Zhang, Xunli
Lu, Chengyi
Han, Weiwei
Zhang, Qunzheng
Wang, Jianlong
Ke, Congye
Wang, Sichang
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  organization: Xi'an Shiyou University, Dianzi 2nd Road Dongduan#18, Xi'an, Shaanxi 710065, China
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  givenname: Weiwei
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  fullname: Han, Weiwei
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  givenname: Sichang
  surname: Wang
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  organization: Xi'an Shiyou University, Dianzi 2nd Road Dongduan#18, Xi'an, Shaanxi 710065, China
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  givenname: Xunli
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  organization: Xi'an Shiyou University, Dianzi 2nd Road Dongduan#18, Xi'an, Shaanxi 710065, China
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  givenname: Jianlong
  surname: Wang
  fullname: Wang, Jianlong
  email: wanglong79@nwsuaf.edu.cn
  organization: College of Food Science and Engineering, Northwest A&F University, 22 Xinong Road, Yangling 712100, Shaanxi, China
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Keywords Fluorescence
Immunoassay
Coordination polymers
Coordination chemistry
Mechanism
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Snippet •CPs including metal–organic frameworks (MOFs) and infinite coordination polymers (ICPs).•CPs with immense feasibility in manufacturing of sensing platforms...
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SubjectTerms Coordination chemistry
Coordination polymers
Fluorescence
Immunoassay
Mechanism
Title Demystifying the coordination polymers triggered fluorescence immunoassay: State of the art and future perspectives
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