id	author	title	date	pages	extension	mime	words	sentences	flesch	summary	cache	txt
cord-018159-ycg6waay	Peng, Xiaolei	Plasmofluidics for Biosensing and Medical Diagnostics	2018-01-23		.txt	text/plain	9124	499	40	With their capability of controlling light at the nanoscale beyond the diffraction limit, surface plasmons such as surface plasmon polaritons (SPPs) and localized surface plasmon resonances (LSPRs) [8] are effective at optically manipulating, sensing, and analyzing biological cells and molecules [9] [10] [11] . Using simple optics to create the trapping force, plasmonic tweezers can be readily incorporated into microfluidic systems to design novel plasmofluidic chips with functionalities such as single-particle trapping [57, 62] , parallel trapping [58] , co-trapping [63] , and kinetic detection of biological objects [61, 64] . Plasmonic nanotechnologies such as plasmonic arrays [87, 88, [101] [102] [103] and SPRI [104, 105] and innovative microfluidic techniques such as integrated concentration gradient generator [104] and multi-well fluidic measurement [106] have been intensely pursued to detect and quantify cancer biomarkers with enhanced sensitivity, robustness, integrity, high throughput, and multiplexity. achieved label-free imaging, detection, and mass/size measurement of single viral particles with high-resolution surface plasmon resonance spectroscopy [121] .	./cache/cord-018159-ycg6waay.txt	./txt/cord-018159-ycg6waay.txt