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W2345304003 endingPage "81" @default.
W2345304003 startingPage "81" @default.
W2345304003 abstract "The need for novel design strategies for fluorescent nanomaterials to improve our understanding of biological activities at the molecular level is increasing rapidly. Dye-doped fluorescent silica nanoparticles (SiNPs) emerge with great potential for developing fluorescence imaging techniques as a novel and ideal platform for the monitoring of living cells and the whole body. Organic dye-containing fluorescent SiNPs exhibit many advantages: they have excellent biocompatibility, are non-toxic, highly hydrophilic, optically transparent, size-tunable and easily modified with various biomolecules. The outer silica shell matrix protects fluorophores from outside chemical reaction factors and provides a hydrophilic shell for the insoluble nanoparticles, which enhances the photo-stability and biocompatibility of the organic fluorescent dyes. Here, we give a summary of the synthesis, characteristics and applications of fluorescent SiNPs for non-invasive fluorescence bioimaging in live cells and in vivo. Additionally, the challenges and perspectives of SiNPs are also discussed. We prospect that the further development of these nanoparticles will lead to an exciting breakthrough in the understanding of biological processes." @default.
W2345304003 created "2016-06-24" @default.
W2345304003 creator A5004382703 @default.
W2345304003 creator A5028677742 @default.
W2345304003 creator A5039414614 @default.
W2345304003 date "2016-04-27" @default.
W2345304003 modified "2023-10-10" @default.
W2345304003 title "Dye-Doped Fluorescent Silica Nanoparticles for Live Cell and In Vivo Bioimaging" @default.
W2345304003 cites W1587690368 @default.
W2345304003 cites W1609686852 @default.
W2345304003 cites W1963491340 @default.
W2345304003 cites W1963977788 @default.
W2345304003 cites W1964234297 @default.
W2345304003 cites W1967490268 @default.
W2345304003 cites W1968277012 @default.
W2345304003 cites W1968975193 @default.
W2345304003 cites W1969474385 @default.
W2345304003 cites W1972260443 @default.
W2345304003 cites W1973052124 @default.
W2345304003 cites W1975663362 @default.
W2345304003 cites W1981053807 @default.
W2345304003 cites W1981638413 @default.
W2345304003 cites W1982089856 @default.
W2345304003 cites W1986076921 @default.
W2345304003 cites W1991814112 @default.
W2345304003 cites W1993611304 @default.
W2345304003 cites W1994818048 @default.
W2345304003 cites W1995980440 @default.
W2345304003 cites W2004255859 @default.
W2345304003 cites W2006907877 @default.
W2345304003 cites W2007579095 @default.
W2345304003 cites W2011145566 @default.
W2345304003 cites W2011300465 @default.
W2345304003 cites W2013557720 @default.
W2345304003 cites W2018307967 @default.
W2345304003 cites W2020488777 @default.
W2345304003 cites W2020750082 @default.
W2345304003 cites W2024186862 @default.
W2345304003 cites W2024762867 @default.
W2345304003 cites W2028811333 @default.
W2345304003 cites W2031600914 @default.
W2345304003 cites W2032430222 @default.
W2345304003 cites W2038511802 @default.
W2345304003 cites W2041277969 @default.
W2345304003 cites W2042052317 @default.
W2345304003 cites W2042545507 @default.
W2345304003 cites W2042602209 @default.
W2345304003 cites W2052827358 @default.
W2345304003 cites W2058315965 @default.
W2345304003 cites W2058559717 @default.
W2345304003 cites W2061176188 @default.
W2345304003 cites W2063079745 @default.
W2345304003 cites W2063811636 @default.
W2345304003 cites W2066722901 @default.
W2345304003 cites W2070349270 @default.
W2345304003 cites W2071919400 @default.
W2345304003 cites W2073470785 @default.
W2345304003 cites W2076033276 @default.
W2345304003 cites W2078714443 @default.
W2345304003 cites W2078820160 @default.
W2345304003 cites W2079369769 @default.
W2345304003 cites W2080218911 @default.
W2345304003 cites W2085619806 @default.
W2345304003 cites W2087569555 @default.
W2345304003 cites W2089124524 @default.
W2345304003 cites W2089906561 @default.
W2345304003 cites W2094079632 @default.
W2345304003 cites W2094517427 @default.
W2345304003 cites W2099412187 @default.
W2345304003 cites W2112101570 @default.
W2345304003 cites W2119507443 @default.
W2345304003 cites W2124433428 @default.
W2345304003 cites W2135678218 @default.
W2345304003 cites W2136510151 @default.
W2345304003 cites W2137168276 @default.
W2345304003 cites W2154008781 @default.
W2345304003 cites W2162070920 @default.
W2345304003 cites W2169792935 @default.
W2345304003 cites W2169850451 @default.
W2345304003 cites W2172192547 @default.
W2345304003 cites W2294535144 @default.
W2345304003 cites W2316318261 @default.
W2345304003 cites W2319211512 @default.
W2345304003 cites W2323506142 @default.
W2345304003 cites W2333969389 @default.
W2345304003 cites W2339411230 @default.
W2345304003 doi "https://doi.org/10.3390/nano6050081" @default.
W2345304003 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5302498" @default.
W2345304003 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28335209" @default.
W2345304003 hasPublicationYear "2016" @default.
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