Quantum dots (QDs), have great potential for fabricating optical sensing devices and imaging biomaterial degradation in vivo.\nIn the present study, 2-mercaptoethylamine- (MEA-) and mercaptopropionic acid- (MPA-) capped CdTe-QDs were physically\nincorporated in silk films that contained a high content (>30%) of crystalline beta-sheet structure. The beta-sheets were induced\nby the addition of glycerol, water annealing, glycerol/annealing, or treatment with methanol. Incorporation of QDs did not\ninfluence the formation of beta-sheets. When the films were extracted with water, most QDs remained associated with the silk,\nbased on the retention of photoluminescence in the silk films and negligible photoluminescence in the extracts. Compared to the\nsolution state, photoluminescence intensity significantly decreased for MEA-QDs but not forMPA-QDs in the silk films, while the\nemission maximum blue shifted (ââ?°Ë?4 nm) slightly for both. Further film digestion using protease XIV, alpha-chymotrypsin, and the\ncombination of the two proteases suggested that QDs may be bound to the silk beta-sheet regions but not the amorphous regions.\nQDs photoluminescence in silk films was quenched when the concentration of hydrogen peroxide (H2O2) was above 0.2-0.3 mM,\nindicating the QDs-incorporated silk films can be used to report oxidation potential in solution.
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