SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2684817662> ?p ?o ?g. }

Showing items 1 to 100 of ±132 with 100 items per page.

W2684817662 endingPage "9971" @default.
W2684817662 startingPage "9961" @default.
W2684817662 abstract "Chemical probes are key components of the bioimaging toolbox, as they label biomolecules in cells and tissues. The new challenge in bioimaging is to design chemical probes for three-dimensional (3D) tissue imaging. In this work, we discovered that light scattering of metal nanoparticles can provide 3D imaging contrast in intact and transparent tissues. The nanoparticles can act as a template for the chemical growth of a metal layer to further enhance the scattering signal. The use of chemically grown nanoparticles in whole tissues can amplify the scattering to produce a 1.4 million-fold greater photon yield than obtained using common fluorophores. These probes are non-photobleaching and can be used alongside fluorophores without interference. We demonstrated three distinct biomedical applications: (a) molecular imaging of blood vessels, (b) tracking of nanodrug carriers in tumors, and (c) mapping of lesions and immune cells in a multiple sclerosis mouse model. Our strategy establishes a distinct yet complementary set of imaging probes for understanding disease mechanisms in three dimensions." @default.
W2684817662 created "2017-06-30" @default.
W2684817662 creator A5012312127 @default.
W2684817662 creator A5021147315 @default.
W2684817662 creator A5023895730 @default.
W2684817662 creator A5050987398 @default.
W2684817662 creator A5057611847 @default.
W2684817662 creator A5057737803 @default.
W2684817662 creator A5061011837 @default.
W2684817662 date "2017-07-13" @default.
W2684817662 modified "2023-09-23" @default.
W2684817662 title "Three-Dimensional Imaging of Transparent Tissues via Metal Nanoparticle Labeling" @default.
W2684817662 cites W1553774174 @default.
W2684817662 cites W1607206274 @default.
W2684817662 cites W1963667377 @default.
W2684817662 cites W1979492674 @default.
W2684817662 cites W1985875995 @default.
W2684817662 cites W1989036845 @default.
W2684817662 cites W2008800413 @default.
W2684817662 cites W2010114799 @default.
W2684817662 cites W2015453436 @default.
W2684817662 cites W2023202988 @default.
W2684817662 cites W2026889522 @default.
W2684817662 cites W2031025318 @default.
W2684817662 cites W2051036306 @default.
W2684817662 cites W2054283902 @default.
W2684817662 cites W2068391384 @default.
W2684817662 cites W2075221395 @default.
W2684817662 cites W2075372254 @default.
W2684817662 cites W2077646940 @default.
W2684817662 cites W2078772275 @default.
W2684817662 cites W2082454728 @default.
W2684817662 cites W2086696748 @default.
W2684817662 cites W2087451538 @default.
W2684817662 cites W2098681947 @default.
W2684817662 cites W2106739895 @default.
W2684817662 cites W2115029038 @default.
W2684817662 cites W2119550206 @default.
W2684817662 cites W2134025969 @default.
W2684817662 cites W2135295464 @default.
W2684817662 cites W2136502605 @default.
W2684817662 cites W2143094150 @default.
W2684817662 cites W2162034088 @default.
W2684817662 cites W2189462190 @default.
W2684817662 cites W2226188670 @default.
W2684817662 cites W2326492613 @default.
W2684817662 cites W2337208828 @default.
W2684817662 cites W2344644350 @default.
W2684817662 cites W2465504877 @default.
W2684817662 cites W2500522403 @default.
W2684817662 cites W2503219359 @default.
W2684817662 cites W2547301282 @default.
W2684817662 cites W2563421367 @default.
W2684817662 cites W2569843945 @default.
W2684817662 cites W2602815865 @default.
W2684817662 doi "https://doi.org/10.1021/jacs.7b04022" @default.
W2684817662 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28641018" @default.
W2684817662 hasPublicationYear "2017" @default.
W2684817662 type Work @default.
W2684817662 sameAs 2684817662 @default.
W2684817662 citedByCount "57" @default.
W2684817662 countsByYear W26848176622017 @default.
W2684817662 countsByYear W26848176622018 @default.
W2684817662 countsByYear W26848176622019 @default.
W2684817662 countsByYear W26848176622020 @default.
W2684817662 countsByYear W26848176622021 @default.
W2684817662 countsByYear W26848176622022 @default.
W2684817662 countsByYear W26848176622023 @default.
W2684817662 crossrefType "journal-article" @default.
W2684817662 hasAuthorship W2684817662A5012312127 @default.
W2684817662 hasAuthorship W2684817662A5021147315 @default.
W2684817662 hasAuthorship W2684817662A5023895730 @default.
W2684817662 hasAuthorship W2684817662A5050987398 @default.
W2684817662 hasAuthorship W2684817662A5057611847 @default.
W2684817662 hasAuthorship W2684817662A5057737803 @default.
W2684817662 hasAuthorship W2684817662A5061011837 @default.
W2684817662 hasConcept C120665830 @default.
W2684817662 hasConcept C121332964 @default.
W2684817662 hasConcept C12554922 @default.
W2684817662 hasConcept C136339569 @default.
W2684817662 hasConcept C150903083 @default.
W2684817662 hasConcept C155672457 @default.
W2684817662 hasConcept C171250308 @default.
W2684817662 hasConcept C185592680 @default.
W2684817662 hasConcept C191486275 @default.
W2684817662 hasConcept C192562407 @default.
W2684817662 hasConcept C207001950 @default.
W2684817662 hasConcept C31332276 @default.
W2684817662 hasConcept C49853544 @default.
W2684817662 hasConcept C55493867 @default.
W2684817662 hasConcept C86803240 @default.
W2684817662 hasConcept C91881484 @default.
W2684817662 hasConceptScore W2684817662C120665830 @default.
W2684817662 hasConceptScore W2684817662C121332964 @default.
W2684817662 hasConceptScore W2684817662C12554922 @default.
W2684817662 hasConceptScore W2684817662C136339569 @default.
W2684817662 hasConceptScore W2684817662C150903083 @default.
W2684817662 hasConceptScore W2684817662C155672457 @default.