Surface Plasmon-Assisted Fluorescence Enhancing and Quenching: From Theory to Application

Su，Qiang1,2; Jiang，Cheng3,4; Gou，Deming1; Long，Yi5

2021

10.1021/acsabm.1c00320

ACS Applied Bio Materials   影响因子和分区

2576-6422

The integration of surface plasmon resonance and fluorescence yields a multiaspect improvement in surface fluorescence sensing and imaging, leading to a paradigm shift of surface plasmon-assisted fluorescence techniques, for example, surface plasmon enhanced field fluorescence spectroscopy, surface plasmon coupled emission (SPCE), and SPCE imaging. This Review aims to characterize the unique optical property with a common physical interpretation and diverse surface architecture-based measurements. The fundamental electromagnetic theory is employed to comprehensively unveil the fluorophore-surface plasmon interaction, and the associated surface-modification design is liberally highlighted to balance the surface plasmon-induced fluorescence-enhancement efforts and the surface plasmon-caused fluorescence-quenching effects. In particular, all types of surface structures, for example, silicon, carbon, protein, DNA, polymer, and multilayer, are systematically interrogated in terms of component, thickness, stiffness, and functionality. As a highly interdisciplinary and expanding field in physics, optics, chemistry, and surface chemistry, this Review could be of great interest to a broad readership, in particular, among physical chemists, analytical chemists, and in surface-based sensing and imaging studies.

advanced fluorescence interfaces optics quenching surface architecture surface plasmon

EI

英语

其他

20212610566901

Chemical analysis ; Electric fields ; Fluorescence imaging ; Fluorescence spectroscopy ; Fluorophores ; Optical properties ; Quenching ; Surface chemistry ; Surface plasmon resonance

Heat Treatment Processes:537.1 ; Electricity: Basic Concepts and Phenomena:701.1 ; Light/Optics:741.1 ; Optical Devices and Systems:741.3 ; Physical Chemistry:801.4 ; Atomic and Molecular Physics:931.3

2-s2.0-85108631036

Scopus

1.Shenzhen Key Laboratory of Microbial Genetic Engineering,College of Life Sciences and Oceanography,Carson International Cancer Center,Shenzhen University,Shenzhen,1066 Xueyuan Street, Nanshan District, Guangdong,518055,China
2.School of Chemistry,University of Birmingham,Birmingham,Edgbaston,B15 2TT,United Kingdom
3.Department of Chemistry,University of Oxford,Oxford,OX1 3QZ,United Kingdom
4.Nuffield Department of Clinical Neurosciences,University of Oxford,Oxford,OX3 9DU,United Kingdom
5.Clinical Research Center,Southern University of Science and Technology Hospital,Shenzhen,6019 Liuxian Street, Xili Avenue, Nanshan District, Guangdong,518055,China

Su，Qiang,Jiang，Cheng,Gou，Deming,et al. Surface Plasmon-Assisted Fluorescence Enhancing and Quenching: From Theory to Application[J]. ACS Applied Bio Materials,2021,4:4684-4705.

Su，Qiang,Jiang，Cheng,Gou，Deming,&Long，Yi.(2021).Surface Plasmon-Assisted Fluorescence Enhancing and Quenching: From Theory to Application.ACS Applied Bio Materials,4,4684-4705.

Su，Qiang,et al."Surface Plasmon-Assisted Fluorescence Enhancing and Quenching: From Theory to Application".ACS Applied Bio Materials 4(2021):4684-4705.