ABSTRACT
In this work, we combine the magnetic microbeads fabricated by microfluidics with nanoplasmonic-assisted fluorescence enhancement for the first time. These bifunctional microbeads not only have high fluorescence enhancement factor but also have magnetic response. The magnetic polymer microbeads were generated by capillary microfluidic device and then coated uniformly by the gold nano-islands layer. By enhancing the electric field and improving the quantum yield of the fluorescent dye, the fluorescence intensity of Dylight 800 dye has increased about 121 fold. These results demonstrate that these fluorescence enhancement magnetic microbeads have potential for developing high sensitively automatic detection systems.
ABSTRACT
As a prospective ophthalmic drug delivery device, contact lenses attract a lot of attention because of the improved drug residence time and bioavailability. Herein, we proposed and fabricated a molecular imprinted structural color contact lens for sustained timolol release which could self-report the release process by color change. The specific recognition of target timolol by molecular imprinted sites can not only increase the loading amount and the residence time of the drug but also endow the structure color of lens remarkable blue shift with the accumulative release of timolol. The fascinating contact lens can be further used for controlling release of a large number of ophthalmic drugs and has high potential to be a new generation of functional contact lenses.
