Lianshun Li scite author profile

Using host−guest molecular recognition at the oil−water interface, a new type of photoresponsive nanoparticle surfactant (NPS) was designed and prepared to structure liquids. With the help of a polymeric surfactant, the interfacial host−guest interactions can be significantly enhanced, leading to the rapid formation and assembly of a NP monolayer and offering sufficient binding energy to hold the NPs in a jammed state. The assembly of the NPSs can be reversibly manipulated via a photoswitchable jamming-to-unjamming transition, endowing the interface as well as the macroscopic assemblies with responsiveness to the external trigger (photons). This study for the first time opens a pathway for the construction of multiresponsive, structured all-liquid systems by introducing host−guest chemistry, showing promising potential applications in encapsulation, delivery systems, and unique microfluidic devices.

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Redox-Responsive, Reconfigurable All-Liquid Constructs

Sun

et al. 2021

J. Am. Chem. Soc.

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Using host−guest chemistries in a biphasic system, a novel supramolecular nanoparticle surfactant (s-NPS) with redox-responsiveness is presented to structure liquids. The in situ assembly/jamming and disassembly/unjamming of s-NPSs at the oil−water interface are reversibly controlled by a switchable redox process, imparting a nanoscale redox-responsiveness, affecting the assemblies on all length scales. "Smart" all-liquid constructs including structured emulsions and programmable liquid devices are easily prepared, showing promising applications in responsive delivery, release, and reaction systems.

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Gated Molecular Diffusion at Liquid–Liquid Interfaces

Sun

et al. 2021

Angew Chem Int Ed

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The jamming of nanoparticle surfactants (NPSs) at liquid-liquid interface imparts attractive properties to the interfacial assemblies and enables the structuring of liquids. Herein, we report photoresponsive supramolecular microcapsules with jammed NPS assemblies at the oil-water interface, taking advantage of host-guest molecular recognition. The permeability of the colloidal membrane can be effectively manipulated by switching the NPSs from a jammed state to an unjammed state with a photo trigger, leading to a controlled molecular diffusion and release, affording a versatile platform for the construction of next generation smart microcapsule systems.

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Gated Molecular Diffusion at Liquid–Liquid Interfaces

Sun

et al. 2021

Angewandte Chemie

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Lianshun Li

Photoresponsive Structured Liquids Enabled by Molecular Recognition at Liquid–Liquid Interfaces

Redox-Responsive, Reconfigurable All-Liquid Constructs

Gated Molecular Diffusion at Liquid–Liquid Interfaces

Gated Molecular Diffusion at Liquid–Liquid Interfaces

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