Remotely Controlling Drug Release by Light-Responsive Cholesteric Liquid Crystal Microcapsules Triggered by Molecular Motors

Huang, Rui; Lan, Ruochen; Shen, Chengmin; Zhang, Zhongping; Wang, Zichen; Bao, Jinying; Wang, Zizheng; Zhang, Lanying; Yu, Zhan; Zhu, Siquan; Wang, Lei; Yang, Huai

doi:10.1021/acsami.1c16367

Cited by 19 publications

(15 citation statements)

References 51 publications

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“…66,67 LCEs, with stimuli-responsive shape-morphing properties, have demonstrated great promise for the applications of actuation, [68][69][70] soft robotics, [71][72][73] and controllable drug delivery. [74][75][76] In the field of tissue engineering and regenerative medicine, LCEs have also received intensive attention first because of their biomimetic architectures. 77 By engineering the orientations of LC moieties to resemble the anisotropic organizations between cells and extracellular matrix (ECM) fibrils in some biological tissues such as muscle, it could achieve directional alignments of cells on LCE-based scaffolds, [78][79][80] Diverse cellular functions (e.g., cellular function maturation 81 and stem cell differentiation 82 ) for facilitating tissue regeneration could be subsequently modulated.…”

Section: Lcesmentioning

confidence: 99%

Reconfigurable scaffolds for adaptive tissue regeneration

et al. 2023

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Section: Lcesmentioning

confidence: 99%

Reconfigurable scaffolds for adaptive tissue regeneration

et al. 2023

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“…To explore the potential applications of the OAMM‐driven droplet, our group prepared light‐directed microcapsules composed of OAMM 11 ‐doped CLC core and gelatin shell ( Figure a,b). [ 90 ] It was found that there was only negligible leakage of LC when dispersing the microcapsules in aqueous solution due to the protection of the polymer shell. By UV irradiation, the texture of CLC core rotated (Figure 9c), at the meantime, the LC molecules escaped from the inner core, illustrating that the morphology change of CLC core could accelerate the leakage of container.…”

Section: Oamm‐triggered Liquid Crystal Systemsmentioning

confidence: 99%

“…8CB and E7 represent commercial smectic LC with high viscosity and commercial nematic LC with low viscosity, respectively. a-e) Reproduced with permission [90]. Copyright 2021, American Chemical Society.…”

mentioning

confidence: 99%

Amplifying Molecular Scale Rotary Motion: The Marriage of Overcrowded Alkene Molecular Motor with Liquid Crystals

et al. 2022

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Design and fabrication of macroscopic functional devices by molecular engineering is an emerging and effective strategy in exploration of advanced materials. Photoresponsive overcrowded alkene‐based molecular motor (OAMM) is considered as one of the most promising molecular machines due to the unique rotary motion driven by light with high temporal and spatial precision. Amplifying the molecular rotary motions into macroscopic behaviors of photodirected systems links the molecular dynamics with macroscopic motions of materials, providing new opportunities to design novel materials and devices with a bottom‐up strategy. In this review, recent developments of the light‐responsive liquid crystal system triggered by OAMM will be summarized. The mechanism of amplification effect of liquid crystal matrix will be introduced first. Then progress of the OAMM‐driven liquid crystal materials will be described including light‐controlled photonic crystals, texture‐tunable liquid crystal coating and microspheres, photoactuated soft robots, and dynamic optical devices. It is hoped that this review provides inspirations in design and exploration of light‐driven soft matters and novel functional materials from molecular engineering to structural modification.

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“…The usual approach is to disperse the CLCs and then cover the resulting droplets with a shell. Various methods have been developed to fabricate the shells of CLC microcapsules using CLC emulsion microdroplets as templates, such as in situ polymerization, , interfacial polymerization, complex coacervation, , and sol–gel methods . Compared to surfactant-stabilized conventional emulsions, solid particle-stabilized Pickering emulsions show better stability and sustainability and have been demonstrated to be a promising template to fabricate microcapsules. ,,,− Cellulose nanocrystals (CNCs) are rod-like nanocelluloses and are normally extracted from wood pulp or cotton via acid hydrolysis. , CNCs display outstanding Pickering emulsifying ability due to their partial wettability with both oil and water phases.…”

Section: Introductionmentioning

confidence: 99%

“…The usual approach is to disperse the CLCs and then cover the resulting droplets with a shell. Various methods have been developed to fabricate the shells of CLC microcapsules using CLC emulsion microdroplets as templates, such as in situ polymerization, 31,32 interfacial polymerization, 33 complex coacervation, 34,35 and sol−gel methods. 36 Compared to surfactant-stabilized conventional emulsions, solid particle-stabilized Pickering emulsions show better stability and sustainability and have been demonstrated to be a promising template to fabricate microcapsules.…”

Section: Introductionmentioning

confidence: 99%

Thermochromic Cholesteric Liquid Crystal Microcapsules with Cellulose Nanocrystals and a Melamine Resin Hybrid Shell

Yang

Yuan

Liu

et al. 2022

ACS Appl. Mater. Interfaces

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Thermochromic coatings that can change their color in response to variations in ambient temperature have various potential applications. Cholesteric liquid crystals (CLCs) are promising thermochromic materials due to their selective light reflection and wide regulation range. However, it remains a challenge to fabricate thermochromic coatings that combine good responsivity, mechanical strength, fabrication feasibility, and flexibility. In this study, CLC microcapsules containing cellulose nanocrystals (CNCs) and a melamine–formaldehyde (MF) resin hybrid shell were fabricated via in situ polymerization using CNC-stabilized Pickering emulsions as templates. The CNCs were employed as both Pickering emulsifiers and alignment agents of CLCs to prepare CLC Pickering emulsions. The CLC microcapsules were mixed with curable binders to obtain coating slurries, and thermochromic coatings were prepared by painting the slurries on substrates and drying. The thermochromic coatings could adjust their color in the visible wavelength range in a temperature range of 12 to 42 °C. Moreover, the obtained thermochromic coatings displayed a relatively high reflectance of up to 30–40% and can even be applied to flexible substrates. The CLC microcapsules with CNCs and an MF hybrid shell are promising in the field of smart decorative paints, anti-counterfeit labels, and artificial skins.

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Remotely Controlling Drug Release by Light-Responsive Cholesteric Liquid Crystal Microcapsules Triggered by Molecular Motors

Cited by 19 publications

References 51 publications

Reconfigurable scaffolds for adaptive tissue regeneration

Reconfigurable scaffolds for adaptive tissue regeneration

Amplifying Molecular Scale Rotary Motion: The Marriage of Overcrowded Alkene Molecular Motor with Liquid Crystals

Thermochromic Cholesteric Liquid Crystal Microcapsules with Cellulose Nanocrystals and a Melamine Resin Hybrid Shell

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