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W2096112193 abstract "This novel materials assembly technology endows the designated materials with additional/enhanced performance by fixing “functional components” into the materials. Such functional components are molecularly recognized and accommodated by the designated materials. In this regard, two‐photon fluorescence (TPF) organic molecules and CdTe quantum dots (QDs) are adopted as functional components to functionalize silk fibers and films. TPF organic molecules, such as, 2,7‐bis[2‐(4‐nitrophenyl) ethenyl]‐9,9‐dibutylfluorene ( NM ), exhibit TPF emission quenching because of the molecular stacking that leads to aggregation in the solid form. The specific recognition between ‐NO 2 in the annealed fluorescent molecules and the ‐NH groups in the silk fibroin molecules decouples the aggregated molecules. This gives rise to a significant increase in the TPF quantum yields of the silk fibers. Similarly, as another type of functional components , CdTe quantum dots (QDs) with different sizes were also adopted in the silk functionalization method. Compared to QDs in solution the fluorescence properties of functionalized silk materials display a long stability at room temperature. As the functional materials are well dispersed at high quantum yields in the biocompatible silk a TPF microscope can be used to pursue 3D high‐resolution imaging in real time of the TPF–silk scaffold." @default.
W2096112193 created "2016-06-24" @default.
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W2096112193 creator A5076114348 @default.
W2096112193 date "2014-09-30" @default.
W2096112193 modified "2023-09-30" @default.
W2096112193 title "Engineering of Fluorescent Emission of Silk Fibroin Composite Materials by Material Assembly" @default.
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W2096112193 doi "https://doi.org/10.1002/smll.201402079" @default.
W2096112193 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25270616" @default.
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