Spiropyran-based advanced photoswitchable materials: A fascinating pathway to the future stimuli-responsive devices

IF 12.8 1区 化学 Q1 CHEMISTRY, PHYSICAL
Jaber Keyvan Rad , Zahra Balzade , Ali Reza Mahdavian
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引用次数: 58

Abstract

Recent years have witnessed tremendous progress and developments of the photoswitchable spiropyran-based polymers, owing to distinctive and particular physicochemical properties of their isomers upon a variety of triggers, and especially light illumination. Light is a fascinating and green stimulus because of its remote control, micron- or submicron-sized focusing area with controllable wavelength and energy, non-invasiveness and non-destructive nature, precisely controlled direction, and availability. In this review, we have emphasized on and summarized the most recent observations and efforts in the progress of photoswitchable spiropyran-based materials and their applications as sensors for heavy metal cations, anions, pH, acid and base vapors, wettability and humidity. Other items include data recording and anticounterfeiting devices, photorheological fluids, optically reversible switching membranes, photoregulating surface plasmon resonance, photomodulation of ion conductivity and mechanoresponsive polymers. The bio-based field is another interesting subject that is discussed here and consists of reversible cell sheet engineering, photodynamic therapy, switchable fluorescence labeling, controlled drug delivery and biological ion channels. On the other hand, limited light penetration inside the living tissues and hazards of high-energy ultraviolet irradiation for initiating photochemical transformations have limited the use of such light-controlled systems in medicinal and therapeutic means. Those spiropyran-based materials which are susceptible to being triggered by low energy near IR (NIR) two-photon light irradiation and upconversion nanoparticles are recently under serious explorations and have been reviewed as a new perspective for their advanced applications.

Abstract Image

基于螺吡喃的先进光开关材料:通往未来刺激响应设备的迷人途径
近年来,由于其异构体在各种触发条件下,特别是光照下具有独特的物理化学性质,光开关螺旋吡喃基聚合物取得了巨大的进展和发展。光具有可远程控制、微米级或亚微米级聚焦区域、波长和能量可控、非侵入性和非破坏性、方向可精确控制、可获得性等特点,是一种迷人的绿色刺激。本文综述了近年来光开关螺吡喃基材料在重金属阳离子、阴离子、pH值、酸碱蒸汽、润湿性和湿度传感器等方面的研究进展。其他项目包括数据记录和防伪设备、光流变流体、光可逆开关膜、光调节表面等离子体共振、离子电导率的光电调节和机械反应性聚合物。生物基领域是这里讨论的另一个有趣的主题,包括可逆的细胞片工程、光动力治疗、可切换的荧光标记、受控的药物输送和生物离子通道。另一方面,生物组织内部有限的光穿透和用于启动光化学转化的高能紫外线照射的危害限制了这种光控系统在医学和治疗手段中的使用。近年来,利用低能量近红外双光子辐照和上转换纳米粒子引发的螺吡喃基材料正受到人们的重视,并成为其先进应用的新前景。
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来源期刊
CiteScore
21.90
自引率
0.70%
发文量
36
审稿时长
47 days
期刊介绍: The Journal of Photochemistry and Photobiology C: Photochemistry Reviews, published by Elsevier, is the official journal of the Japanese Photochemistry Association. It serves as a platform for scientists across various fields of photochemistry to communicate and collaborate, aiming to foster new interdisciplinary research areas. The journal covers a wide scope, including fundamental molecular photochemistry, organic and inorganic photochemistry, photoelectrochemistry, photocatalysis, solar energy conversion, photobiology, and more. It provides a forum for discussing advancements and promoting collaboration in the field of photochemistry.
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