Fluorescence enhancement by hollow plasmonic assembly and its biosensing application

• Published in: Analytica chimica acta Vol. 1144; pp. 96 - 101
• Main Authors: Xie, Kai-Xin, Liu, Qian, Jia, Shu-Shu, Xiao, Xiu-Xian
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 01.02.2021
• Subjects: Biosensing Techniques; Fluorescence enhancement; Fluorescent Dyes; Gold; Gold nanoshells; Immunoassay; Immunosensor; Surface plasmon coupled emission; Surface Plasmon Resonance; Gold nanoshells; Surface plasmon coupled emission; Immunosensor; Fluorescence enhancement
• ISSN: 0003-2670; 1873-4324
• DOI: 10.1016/j.aca.2020.12.008

We have observed the enhanced surface plasmon-coupled emission (SPCE) by introducing a hollow plasmonic structure. By assembling gold nanoshells (GNSs) on a gold substrate via electrostatic adsorption and subsequently applying a fluorophore layer (approximately 30 nm) by spin-coating, SPCE fluorescence signals exhibited 30- and 110-fold enhancements compared to those of normal SPCE and free space emission, respectively. This enhancement was mainly induced by the novel “hot-spot” plasmonic structure that emerged between the GNS and gold substrate, the intense electromagnetic field of GNSs, and the strong coupling interactions between fluorescence and surface plasmons. After optimizing the conditions, we demonstrated that this GNS-enhanced SPCE system was suitable for biomolecule detection because of the scale match between the optimal fluorophore thickness and the biomolecule size, and thus was designed as an immunosensor to verify the feasibility of this system. Our strategy of combining GNSs and SPCE to enhance the fluorescence signal created a new fluorescence system based on a hollow plasmonic structure and provided a simple way to improve the detection sensitivity in fluorescence-based sensing and imaging platforms. [Display omitted] •The introduction of gold nanoshells (GNSs) enhanced the signal of surface plasmon coupled emission (SPCE).•The enhancement factors were over 30 and 110 compared with normal SPCE and free space emission.•The main reasons are intense electromagnetic field around GNS and gold substrate.•An immunosensor for human IgG was established with the detection limit of 0.004 ng mL−1.