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W2800737397 startingPage "153" @default.
W2800737397 abstract "Optical bioimaging by using the new short-wavelength infrared window (SWIR, also named as NIR-II, 1000-1700 nm) is emerged as a next generation imaging technique for disease diagnosis owing to the unprecedented improvements in imaging sensitivity and spatial resolution. However, it is challenging to search new imaging agents with highly biocompatible and bright narrow-band emission located in the 1500-1700 nm (referred as NIR-IIb) region. Here we developed high quality polyacrylic acid (PAA) modified NaYF4:Gd/Yb/Er nanorods (PAA-NRs) with remarkably enhanced NIR-IIb emission and decent bio-compatibility for in vivo cerebral vascular bioimaging and small tumor visualization. These PAA-NRs present efficient narrow-band NIR-IIb emission centered at 1520 with 182 nm of band-width. Owing to the highly efficient NIR-IIb emission, NIR-IIb imaging-guided small tumor (4 mm in diameter) detection is achieved. More importantly, non-invasive optical brain vessel bioimaging with high spatial (∼43.65 μm) and temporal resolution through scalp and skull is obtained without craniotomy. These findings open up the opportunity of designing non-invasive approach for visualization the brain vasculature and tumor in biomedical application." @default.
W2800737397 created "2018-05-17" @default.
W2800737397 creator A5041803361 @default.
W2800737397 creator A5061355593 @default.
W2800737397 creator A5076041458 @default.
W2800737397 date "2018-07-01" @default.
W2800737397 modified "2023-10-17" @default.
W2800737397 title "Non-invasive through-skull brain vascular imaging and small tumor diagnosis based on NIR-II emissive lanthanide nanoprobes beyond 1500 nm" @default.
W2800737397 cites W1821634677 @default.
W2800737397 cites W1833947617 @default.
W2800737397 cites W1903778810 @default.
W2800737397 cites W1969515720 @default.
W2800737397 cites W1984705626 @default.
W2800737397 cites W1995562885 @default.
W2800737397 cites W1995651581 @default.
W2800737397 cites W1996258924 @default.
W2800737397 cites W1996648985 @default.
W2800737397 cites W1996993122 @default.
W2800737397 cites W2001144576 @default.
W2800737397 cites W2002296412 @default.
W2800737397 cites W2003452979 @default.
W2800737397 cites W2012036400 @default.
W2800737397 cites W2017537990 @default.
W2800737397 cites W2018691490 @default.
W2800737397 cites W2028172671 @default.
W2800737397 cites W2030943904 @default.
W2800737397 cites W2040532000 @default.
W2800737397 cites W2044754414 @default.
W2800737397 cites W2053684168 @default.
W2800737397 cites W2059334743 @default.
W2800737397 cites W2060419121 @default.
W2800737397 cites W2066517499 @default.
W2800737397 cites W2068441724 @default.
W2800737397 cites W2079625753 @default.
W2800737397 cites W2081434222 @default.
W2800737397 cites W2094392916 @default.
W2800737397 cites W2098875662 @default.
W2800737397 cites W2103951235 @default.
W2800737397 cites W2105844099 @default.
W2800737397 cites W2107349116 @default.
W2800737397 cites W2107483589 @default.
W2800737397 cites W2107908193 @default.
W2800737397 cites W2120799994 @default.
W2800737397 cites W2128941127 @default.
W2800737397 cites W2139153231 @default.
W2800737397 cites W2141193219 @default.
W2800737397 cites W2143345040 @default.
W2800737397 cites W2148293218 @default.
W2800737397 cites W2150708165 @default.
W2800737397 cites W2154538395 @default.
W2800737397 cites W2160007126 @default.
W2800737397 cites W2167255447 @default.
W2800737397 cites W2173446497 @default.
W2800737397 cites W2232199395 @default.
W2800737397 cites W2261575366 @default.
W2800737397 cites W2315759364 @default.
W2800737397 cites W2320589001 @default.
W2800737397 cites W2326556953 @default.
W2800737397 cites W2342399740 @default.
W2800737397 cites W2471875711 @default.
W2800737397 cites W2493007512 @default.
W2800737397 cites W2556336202 @default.
W2800737397 cites W2569658671 @default.
W2800737397 cites W2582561014 @default.
W2800737397 cites W2583230745 @default.
W2800737397 cites W2592555235 @default.
W2800737397 cites W2599813635 @default.
W2800737397 cites W2606668319 @default.
W2800737397 cites W2613287583 @default.
W2800737397 cites W2614165899 @default.
W2800737397 cites W2760538791 @default.
W2800737397 cites W3122175919 @default.
W2800737397 cites W4241290642 @default.
W2800737397 cites W4243547549 @default.
W2800737397 cites W2115166581 @default.
W2800737397 cites W2120593162 @default.
W2800737397 doi "https://doi.org/10.1016/j.biomaterials.2018.04.037" @default.
W2800737397 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29689412" @default.
W2800737397 hasPublicationYear "2018" @default.
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