胶束
光电开关
超分子化学
聚合
分子
尼罗河红
光化学
材料科学
纳米颗粒
化学工程
药物输送
偶氮苯
化学
表面改性
纳米技术
氢键
疏水
超分子组装
高分子化学
自组装
分子内力
组合化学
单体
光异构化
控制释放
作者
Ruggero Rossi,Miriam Abad,Luís Oriol,Daniele Martella,Camilla Parmeggiani,Milagros Piñol
出处
期刊:Small
[Wiley]
日期:2025-11-06
卷期号:21 (51): e11176-e11176
标识
DOI:10.1002/smll.202511176
摘要
Precise, remote control of polymeric nanoparticles via external stimuli is a key aim for the next-generation drug delivery. As a versatile, one-pot method, polymerization-induced self-assembly (PISA) produces dispersions of block-copolymer micelles at high solids content with tunable core-corona architectures. Light is an ideal trigger to control the uptake and delivery of specific molecules inside such micelles since it can be localized, and easily tuned in intensity and wavelength. In this study, PISA is employed in water to obtain micelles containing diacylaminopyridine units functionalizable thanks to supramolecular interaction by a light-mediated process. Indeed, only if UV irradiation is used to convert thymine-based azo photoswitches into the cis form, these molecules permeate the hydrophilic corona and anchor via hydrogen bonds to the hydrophobic core of the micelles. Subsequent visible‑light exposure regenerates their trans state without micelle disassembling. The photoswitch loading boosts the encapsulation of Nile Red, studied here as a model of hydrophobic cargo, while a subsequent UV light stimulus accelerates the dye release; moreover, the selected photoswitch sustains release over days without further irradiation. By marrying advanced polymerization techniques with reversible photochemistry, dynamic micelles are prepared whose structure and cargo release can be fully controlled by light.
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