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1. Swelling‐Induced Symmetry Breaking: A Versatile Approach to the Scalable Production of Colloidal Particles with a Janus Structure

   https://doi.org/10.1002/ange.202102164  

   Qiu, Jichuan ; Chen, Zitao ; Chi, Miaofang ; Xia, Younan ( May 2021 , Angewandte Chemie)

   Janus particles are widely sought for applications related to colloidal assembly, stabilization of emulsions, and development of active colloids, among others. Here we report a versatile route to the fabrication of well‐controlled Janus particles by simply breaking the symmetry of spherical particles with swelling. When a polystyrene (PS) sphere covered by a rigid shell made of silica or polydopamine is exposed to a good solvent for PS, a gradually increased pressure will be created inside the shell. If the pressure becomes high enough to poke a hole in the shell, the spherical symmetry will break while pushing out the swollen PS through the opening to generate a Janus particle comprised of two distinct components. One of the components is made of PS and its size is controlled by the extent of swelling. The other component is comprised of the rigid shell and remaining PS, with its overall diameter determined by the original PS sphere and the rigid shell. This solution‐based route holds promises for the scalable production of complex Janus particles with a variety of compositions and in large quantities.

    

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2. Polystyrene‐Silica Colloidal Janus Particles with Uniform Shapes and Complex Structures

   https://doi.org/10.1002/ppsc.202200085  

   Xu, Jianchang ; Qiu, Jichuan ; Zhang, Haohui ; Hu, Yuhang ; Xia, Younan ( June 2022 , Particle & Particle Systems Characterization)

   Colloidal Janus particles with well‐controlled parameters are sought for a range of applications in mesoscale self‐assembly, stabilization of Pickering emulsion, and development of multifunctional devices, among others. Herein, a versatile method for fabricating polystyrene‐silica (PS‐SiO₂) Janus particles featuring complex shapes and structures is developed by swelling PS@SiO₂core–shell spheroids. When the PS encapsulated in a rigid SiO₂shell is swollen by a good solvent for PS, the swelling‐induced pressure will result in an uneven distribution of stress acting on the SiO₂shell, as determined by the intrinsic symmetry of a spheroid. When the stress reaches a threshold value, the swollen PS will preferentially poke out from equatorial sites on the SiO₂shell to form T‐shaped Janus particles comprised of PS and SiO₂compartments. The size of the PS portion can be controlled by varying the extent of swelling, while the size, shape, and shell thickness of the SiO₂portion are determined by the original PS spheroids and the SiO₂coating. This solution‐phase method holds promise to produce Janus particles with diverse shapes, structures, and compositions for various applications. The T‐shaped Janus particles can serve as an emulsifier to effectively stabilize an oil‐in‐water (O/W) Pickering emulsion for at least 35 days.

    

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3. Fabrication of anisotropic janus composite particles based on natural renewable urushiol

   https://doi.org/10.1002/pen.24937  

   Zheng, Xuelin ; Cheng, Wei ; Chen, Shuning ; Chen, Jiawen ; Chen, Qinhui ( September 2018 , Polymer Engineering & Science)

   Urushiol praseodymium‐polystyrene (UPr‐PS) Janus composite particles were synthesized by emulsion swelling assisted protruding from UPr/PS core‐shell composite microspheres. The effects of sulfonated time and the outer electronic configuration of metal on the shell of urushiol metal/PS composite microspheres, together with the effects of monomer type, monomer dosage and swelling time on the swelling behaviour, were studied. The morphology, chemical composition and thermal performance of UPr/PS core‐shell composite microspheres and UPr‐PS Janus composite particles were studied by means of scanning electron microscopy (SEM), transmission electron microscopy (TEM), energy dispersive X‐ray analyzer (EDX), Thermogravimetric analysis (TG) and infrared spectrometer (IR). Results showed that the morphology could be controlled by the metal kind, the sulfonated time, the monomer type, the monomer dosage and the swelling time. Attributing to the novel anisotropic structure, the UPr‐PS Janus composite particles will be expected to be applied in oriented catalyst. POLYM. ENG. SCI., 59:411–417, 2019. © 2018 Society of Plastics Engineers

    

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4. Polydopamine Nanobottles with Photothermal Capability for Controlled Release and Related Applications

   https://doi.org/10.1002/adma.202104729  

   Qiu, Jichuan ; Shi, Yifeng ; Xia, Younan ( September 2021 , Advanced Materials)

   Nanobottles refer to colloidal particles featuring a hollow body connected to a single opening on the surface. This unique feature makes them ideal carriers for the encapsulation and controlled release of various types of cargos. Here a facile route to the fabrication of uniform nanobottles made of polydopamine by leveraging swelling‐induced pressure is reported. When polystyrene spheres are coated with polydopamine and then incubated with a toluene/water emulsion, the polystyrene will be swollen to automatically poke a single hole in the shell because of the pressure inside the shell. After quenching the swelling with ethanol and then removing all the polystyrene with tetrahydrofuran, polydopamine nanobottles are obtained. The dimensions of the hollow body are determined by the polystyrene template, while the size of the opening can be tuned by varying the shell thickness. Through the opening, different types of cargos, including small molecules and biomacromolecules, can be easily loaded with a thermoresponsive material into the cavity. The cargos can be released in a controllable manner through direct heating or polydopamine‐enabled photothermal heating. In a proof‐of‐concept experiment, the polydopamine nanobottles are used for temperature‐controlled release of thrombin to trigger the formation of fibrin gels in situ.

    

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5. Structured micro/nano materials synthesized via electrospray: a review

   https://doi.org/10.1039/D0BM01313G  

   He, Tengyu ; Jokerst, Jesse V. ( October 2020 , Biomaterials Science)

   null (Ed.)

   The development of synthetic methods for micro/nano materials with precisely controlled structures, morphologies, and local compositions is of great importance for the advancement of modern nanotechnology. The electrospray method is a “platform” approach for the preparation of a broad range of micro-/nanostructures; electrospray is simple and scalable. This review summarizes recent research on the micro-/nanostructures prepared via the electrospray route. These include spherical structures ( e.g. simple, porous, Janus, and core–shell particles), non-spherical structures ( e.g. red blood cell-like and spindle-like particles, multi-compartment microrods, 2D holey nanosheets, and nanopyramids), and assembled structures. The experimental details, underlying physical/chemical principles, and key benefits of these structures are comprehensively discussed. The effects and importance of nozzle design, properties of feeding solutions ( e.g. concentration of solute, polymer additives, solvent/nonsolvent combinations), working environment ( e.g. temperature and humidity), and types of collection media are highlighted. 

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