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W3209693417 startingPage "125" @default.
W3209693417 abstract "Single-cell analysis (SCA) is an important technology used in the fields of cell biology and biomedicine. The birth and development of SCA is based on modern advanced optical technology. So far, a large variety of optical detection methods have been used for SCA, including optical tweezing, super-resolution optical microscopy, dynamic light scattering, fluorescence imaging, evanescent-wave sensing, and hyperspectral microscopy. This chapter focuses on the recent applications of the latter two methods in SCA. Optical evanescent-wave sensors applied for SCA mainly include surface plasmon resonance (SPR) imaging sensors, plasmon waveguide resonance (PWR) imaging sensors, and metal-free waveguide resonance (WGR) sensors, all of which are label-free and noninvasive. Because optical evanescent wave is nonradiated surface electromagnetic wave, the earlier-mentioned sensors are highly sensitive to changes of refractive index induced by chemical and biological reactions on the surface. Nowadays, SPR and PWR imaging sensors and grating-coupled WGR sensor have been well recognized as label-free biosensing platforms for temporally and spatially resolved detection of intercellular and intracellular interactions, cell–substrate interaction, cell–drug molecule interaction, and cell apoptosis process. Hyperspectral microscopy is an informative multifunctional analytical technique based on a combination of the advanced hyperspectral imaging and the conventional optical microscopy such as dark-field microscopy and fluorescence microscopy. Hyperspectral microscopy with high resolution has been used for recognition and detection of metal nanostructures inside single cells, and it can provide spatially resolved quantitative information of intracellular compositional variation, giving deep insights on intracellular reaction. The typical experimental results selected from the relevant papers published so far are shown in this chapter to help readers to understand the roles of the aforementioned optical techniques for SCA. The pros and cons of each technique and the perspectives of further developments are discussed in conclusions." @default.
W3209693417 created "2021-11-08" @default.
W3209693417 creator A5055183049 @default.
W3209693417 creator A5077155540 @default.
W3209693417 creator A5089846052 @default.
W3209693417 date "2022-01-01" @default.
W3209693417 modified "2023-09-25" @default.
W3209693417 title "Single-cell analysis by evanescent wave sensing and hyperspectral microscopy" @default.
W3209693417 cites W1516452818 @default.
W3209693417 cites W1815695605 @default.
W3209693417 cites W1925122138 @default.
W3209693417 cites W1971319412 @default.
W3209693417 cites W1971941671 @default.
W3209693417 cites W1986387313 @default.
W3209693417 cites W1990629819 @default.
W3209693417 cites W1992079711 @default.
W3209693417 cites W2001888115 @default.
W3209693417 cites W2003995038 @default.
W3209693417 cites W2004987572 @default.
W3209693417 cites W2005417669 @default.
W3209693417 cites W2013030035 @default.
W3209693417 cites W2019809087 @default.
W3209693417 cites W2032429863 @default.
W3209693417 cites W2041783917 @default.
W3209693417 cites W2049007155 @default.
W3209693417 cites W2050374783 @default.
W3209693417 cites W2055901473 @default.
W3209693417 cites W2057006476 @default.
W3209693417 cites W2060600980 @default.
W3209693417 cites W2062866488 @default.
W3209693417 cites W2066706759 @default.
W3209693417 cites W2069991255 @default.
W3209693417 cites W2074706138 @default.
W3209693417 cites W2080638359 @default.
W3209693417 cites W2081210863 @default.
W3209693417 cites W2087749581 @default.
W3209693417 cites W2093486963 @default.
W3209693417 cites W2099339344 @default.
W3209693417 cites W2101958631 @default.
W3209693417 cites W2103345565 @default.
W3209693417 cites W2110384282 @default.
W3209693417 cites W2115318086 @default.
W3209693417 cites W2117317734 @default.
W3209693417 cites W2123224966 @default.
W3209693417 cites W2128528349 @default.
W3209693417 cites W2129402323 @default.
W3209693417 cites W2132298953 @default.
W3209693417 cites W2137124291 @default.
W3209693417 cites W2139013197 @default.
W3209693417 cites W2139037136 @default.
W3209693417 cites W2312799814 @default.
W3209693417 cites W2319148796 @default.
W3209693417 cites W2327549720 @default.
W3209693417 cites W2415933351 @default.
W3209693417 cites W2418070565 @default.
W3209693417 cites W2503219359 @default.
W3209693417 cites W2558648367 @default.
W3209693417 cites W2560440591 @default.
W3209693417 cites W2581717273 @default.
W3209693417 cites W2591646821 @default.
W3209693417 cites W2592903665 @default.
W3209693417 cites W2614804408 @default.
W3209693417 cites W2617057812 @default.
W3209693417 cites W2661445467 @default.
W3209693417 cites W2744561743 @default.
W3209693417 cites W2753825726 @default.
W3209693417 cites W2755605600 @default.
W3209693417 cites W2771295270 @default.
W3209693417 cites W2780198782 @default.
W3209693417 cites W2797113586 @default.
W3209693417 cites W2890911039 @default.
W3209693417 cites W2896225373 @default.
W3209693417 cites W2908854407 @default.
W3209693417 cites W2921914892 @default.
W3209693417 cites W2934768007 @default.
W3209693417 cites W2942577838 @default.
W3209693417 cites W2948596159 @default.
W3209693417 cites W2954136290 @default.
W3209693417 cites W2974504871 @default.
W3209693417 cites W2990598561 @default.
W3209693417 cites W2992316425 @default.
W3209693417 cites W2997466154 @default.
W3209693417 cites W2999179229 @default.
W3209693417 cites W3091739989 @default.
W3209693417 cites W3099976632 @default.
W3209693417 cites W4252463539 @default.
W3209693417 cites W4253576419 @default.
W3209693417 cites W4362198726 @default.
W3209693417 doi "https://doi.org/10.1016/b978-0-323-89841-6.00003-7" @default.
W3209693417 hasPublicationYear "2022" @default.
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