Porous Electrospun Films with Reversible Photoresponsive Microenvironmental Humidity Regulation: A Controllable Hydrogen-Bonding Synergistic Effect Exhibited by Acrylic Acid Segments

Li, Chunhao; Zhang, Ce; Zhao, Ruisheng; Zhao, Ning; Liu, Ruian; Zhang, Yang; Jia, Meilin; Wang, Shuai

doi:10.1021/acsami.2c20035

Cited by 4 publications

(1 citation statement)

References 60 publications

(82 reference statements)

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“…The fibers and the films demonstrated hydrochromic and humidity-responsive behavior together with photoresponsivity, combined with improved reversibility and reusability. In the same way, Li et al [99] have prepared electrospun films with reversible photoresponsive wettability and the ability to regulate microenvironmental relative humidity developed from acryloyl-spiropyran (SPA), acrylic acid (AA), and methyl methacrylate (MMA) (poly(SPAx-co-AAy-co-MMAz)), represented in Figure 39. The wettability was changed by exposing them to alternating UV and visible light due to the reversible transition of spiropyran.…”

Section: Spiropyran-based Films and Coatingsmentioning

confidence: 99%

Recent Progress in Photoresponsive Biomaterials

et al. 2023

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Photoresponsive biomaterials have garnered increasing attention recently due to their ability to dynamically regulate biological interactions and cellular behaviors in response to light. This review provides an overview of recent advances in the design, synthesis, and applications of photoresponsive biomaterials, including photochromic molecules, photocleavable linkers, and photoreactive polymers. We highlight the various approaches used to control the photoresponsive behavior of these materials, including modulation of light intensity, wavelength, and duration. Additionally, we discuss the applications of photoresponsive biomaterials in various fields, including drug delivery, tissue engineering, biosensing, and optical storage. A selection of significant cutting-edge articles collected in recent years has been discussed based on the structural pattern and light-responsive performance, focusing mainly on the photoactivity of azobenzene, hydrazone, diarylethenes, and spiropyrans, and the design of smart materials as the most targeted and desirable application. Overall, this review highlights the potential of photoresponsive biomaterials to enable spatiotemporal control of biological processes and opens up exciting opportunities for developing advanced biomaterials with enhanced functionality.

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Section: Spiropyran-based Films and Coatingsmentioning

confidence: 99%