Title
Reversible Modulation of 2D Photonic Crystals with a Responsive Shape‐Memory DNA Hydrogel Film
Author
Chunyan Wang, Fengyun Li, Yanhui Bi, Weiwei Guo
Year
2019
Journal
Advanced Materials Interfaces
Abstract
Responsive DNA hydrogels are smart soft materials that have attracted significant attention in the past decade in various research fields, especially in biosensing. However, several limitations of DNA hydrogels, such as non‐recyclability, slow response, and high manufacturing cost, severely hamper their biosensing applications. In this work, shape‐memory DNA hydrogel film with thickness at micrometer scale is developed, serving as both target recognition unit and actuating unit for the regulation of 2D photonic crystals (2D PCs) embedded on the surface of the hydrogel film. External stimuli can drive the reversible shape changes of the DNA hydrogel films and therefore modulate the lattice spacing of 2D PC array, which can be directly observed by the diameter changes of the Debye diffraction ring. Compared with the bulk hydrogels, these DNA hydrogel films possess the advantages of lower cost and faster stimuli response; more importantly, diameter of the diffraction ring as signal output avoids the requirement of sophisticated instruments. pH‐responsive or Ag+/cysteine (Cys) responsive DNA hydrogel films are successfully developed as model systems to demonstrate the successful reversible modulation of the lattice spacing of 2D PCs. These smart DNA hydrogel film systems may have great potential in the development of future portable and visual biosensing devices.
Instrument
J-715
Keywords
Circular dichroism, DNA structure, Chemical stability, Materials, Biochemistry