by Keyword: Gc-spr
Murugan, Divagar, Tintelott, Marcel, Narayanan, Madaboosi S, Vu, Xuan-Thang, Kurkina, Tetiana, Rodriguez-Emmenegger, Cesar, Schwaneberg, Ulrich, Dostalek, Jakub, Ingebrandt, Sven, Pachauri, Vivek, (2024). Recent Advances in Grating Coupled Surface Plasmon Resonance Technology Advanced Optical Materials , 2401862
Surface plasmon resonance (SPR) is a key technique in developing sensor platforms for clinical diagnostics, drug discovery, food quality, and environmental monitoring applications. While prism-coupled (Kretschmann) SPR remains a "gold-standard" for laboratory work-flows due to easier fabrication, handling and high through put, other configurations such as grating-coupled SPR (GC-SPR) and wave-guide mode SPR are yet to fulfil their technology potential. This work evaluates the technical aspects influencing the performance of GC-SPR and reviews recent progress in the fabrication of such platforms. In principle, the GC-SPR involves the illumination of the plasmonic metal film with periodic gratings to excite the surface plasmons (SP) via diffraction-based phase matching. The real performance of the GC-SPR is, however, heavily influenced by the topography of the grating structures produced via top-down lithography techniques. This review discusses latest in approaches to achieve consistent plasmonic gratings with uniform features and periodicity over a large scale and explores the choice of plasmon-active and substrate material for enhanced performance. The review also provides insights into the different GC-SPR measurement configurations and highlights on opportunities with their potential applications as biosensors with translational capabilities. A review on recent progress in the realization of grating-coupled and wave-guide mode surface plasmon resonance (SPR) platforms which have seen very limited progress toward diagnostics applications in comparison to Kretchmann configured SPR. Sophisticated topography manipulation during large-area nanofabrication, integration of emerging nanomaterials, and machine learning-based data analytics are expected to overcome concurrent challenges toward clinical adoption of grating-coupled SPR in coming years. image
JTD Keywords: Aluminum, Biosensor, Chemical sensor, Compact, Fabrication methods, Gc-spr, Gold, Lase, Lithography, Nanogratings, Performance, Plasmonics, Sensitivity enhancement, Sp, Spr sensor