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W2361788891 endingPage "4146" @default.
W2361788891 startingPage "4138" @default.
W2361788891 abstract "To enhance the total emission intensity, particularly the red emission of Yb,Er co-doped nanoparticles for red light activated photodynamic therapy (PDT), we doped Mn2+ ions into the NaGdF4:Yb,Er core, and subsequently coated the NaGdF4:Yb active shell to fabricate core-shell structured, up-conversion nanoparticles of NaGdF4:Yb,Er,Mn@NaGdF4:Yb (abbreviated as UCNPs). A novel and facile encapsulation method with gelatin has been proposed to transfer oleic acid (OA) stabilized UCNPs into an aqueous solution and simultaneously decorate zinc phthalocyanine (ZnPc) photosensitizer molecules. In the encapsulation process, ZnPc molecules are wrapped in the interlaced net structure of the peptide chain from gelatin, forming the UCNPs@gel-ZnPc nanocomposite. The nanoplatform has high emission intensity and excellent biocompatibility, as was expected. More importantly, the enhanced red emission of UCNPs has significant overlap with the UV absorbance of ZnPc; therefore, it can effectively activate the sensitizer to produce a large amount of singlet oxygen reactive oxygen species (ROS, 1O2) to kill cancer cells, which has evidently been verified by the in vitro results. Combined with the inherent up-conversion luminescence (UCL) imaging properties, this UCNPs@gel-ZnPc nanoplatform could have potential application in PDT and imaging fields." @default.
W2361788891 created "2016-06-24" @default.
W2361788891 creator A5010314867 @default.
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W2361788891 date "2016-01-01" @default.
W2361788891 modified "2023-10-16" @default.
W2361788891 title "UCNPs@gelatin–ZnPc nanocomposite: synthesis, imaging and anticancer properties" @default.
W2361788891 cites W1507021713 @default.
W2361788891 cites W1964508699 @default.
W2361788891 cites W1964991943 @default.
W2361788891 cites W1966794296 @default.
W2361788891 cites W1973652916 @default.
W2361788891 cites W1974888478 @default.
W2361788891 cites W1976674593 @default.
W2361788891 cites W1977974784 @default.
W2361788891 cites W1990321413 @default.
W2361788891 cites W1990845976 @default.
W2361788891 cites W1991459564 @default.
W2361788891 cites W1997713624 @default.
W2361788891 cites W2006708847 @default.
W2361788891 cites W2007364213 @default.
W2361788891 cites W2008908148 @default.
W2361788891 cites W2010986334 @default.
W2361788891 cites W2015680271 @default.
W2361788891 cites W2017537990 @default.
W2361788891 cites W2021080617 @default.
W2361788891 cites W2023287739 @default.
W2361788891 cites W2027636484 @default.
W2361788891 cites W2028514960 @default.
W2361788891 cites W2036429674 @default.
W2361788891 cites W2038241031 @default.
W2361788891 cites W2038668303 @default.
W2361788891 cites W2041459061 @default.
W2361788891 cites W2042272343 @default.
W2361788891 cites W2043095023 @default.
W2361788891 cites W2048157217 @default.
W2361788891 cites W2053633811 @default.
W2361788891 cites W2053896414 @default.
W2361788891 cites W2055776993 @default.
W2361788891 cites W2056376045 @default.
W2361788891 cites W2057675099 @default.
W2361788891 cites W2060031329 @default.
W2361788891 cites W2061330733 @default.
W2361788891 cites W2068947569 @default.
W2361788891 cites W2091132868 @default.
W2361788891 cites W2092049539 @default.
W2361788891 cites W2095763096 @default.
W2361788891 cites W2098708323 @default.
W2361788891 cites W2098875662 @default.
W2361788891 cites W2098968611 @default.
W2361788891 cites W2102907645 @default.
W2361788891 cites W2103939835 @default.
W2361788891 cites W2104130211 @default.
W2361788891 cites W2104933009 @default.
W2361788891 cites W2109850619 @default.
W2361788891 cites W2114015670 @default.
W2361788891 cites W2114715953 @default.
W2361788891 cites W2138355916 @default.
W2361788891 cites W2140506619 @default.
W2361788891 cites W2142353669 @default.
W2361788891 cites W2143402290 @default.
W2361788891 cites W2166579747 @default.
W2361788891 cites W2168796001 @default.
W2361788891 cites W2269019676 @default.
W2361788891 cites W2312828751 @default.
W2361788891 cites W2314719402 @default.
W2361788891 cites W2320515380 @default.
W2361788891 cites W2320574135 @default.
W2361788891 cites W2330515084 @default.
W2361788891 cites W2333685381 @default.
W2361788891 cites W2334829422 @default.
W2361788891 doi "https://doi.org/10.1039/c6tb00714g" @default.
W2361788891 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32264616" @default.
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