Effect of Nonsolvent on the Formation of Polymer Nanomaterials in the Nanopores of Anodic Aluminum Oxide Templates

Lee, Chih Wei; Wei, Tzu Hui; Chang, Chun Wei; Chen, Jiun‐Tai

doi:10.1002/marc.201200200

Cited by 47 publications

(77 citation statements)

References 39 publications

(38 reference statements)

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“…Moreover, the selective P2VP swelling in the PS‐ b ‐P2VP nanospheres caused internal structural reconstruction to form mesoporous nanospheres, which could be used as catalyst nanocontainers. Another Rayleigh instability‐based work was reported by Chen and co‐workers, studying the water effect on the polymeric nanomaterials formation in the internal nanochannels of AAO templates . Water was added into a dimethylformamide solution of PMMA confined within the nanochannels of the AAO template, which formed a wetting layer on the AAO channel wall and confined the PMMA solution in the center of the nanochannel.…”

Section: Wettability In 1d Nanochannelsmentioning

confidence: 99%

“…Jin and co‐workers also reported utilizing AAO membrane with cylindrical nanochannels as template to prepare poly(styrene‐ b ‐2‐vinylpyridine) nanomaterials with various morphologies composed of nanotubes, nanorods, and nanospheres . Chen and co‐workers further studied the water effect on the PMMA nanomaterials formation in the nanochannels of the AAO template, indicating polymeric nanospheres or nanorods were formed with adding water to the polymeric solution, and polymeric nanotubes were obtained without adding water . PS‐ b ‐PDMS were also fabricated by Chen et al confined in the AAO nanochannels, and by regulation the weight ratios of PS, diverse morphologies of PS‐ b ‐PDMS nanomaterials were formed, containing nanorods, concentric lamellar, multihelical and spherical‐like morphology .…”

Section: Applications Of Nanochannelsmentioning

confidence: 99%

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Wettability and Applications of Nanochannels

2018

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Wettability in nanochannels is of great importance for understanding many challenging problems in interface chemistry and fluid mechanics, and presents versatile applications including mass transport, catalysis, chemical reaction, nanofabrication, batteries, and separation. Recently, both molecular dynamic simulations and experimental measurements have been employed to study wettability in nanochannels. Here, wettability in three types of nanochannels comprising 1D nanochannels, 2D nanochannels, and 3D nanochannels is summarized both theoretically and experimentally. The proposed concept of “quantum‐confined superfluid” for ultrafast mass transport in nanochannels is first introduced, and the mostly studied 1D nanochannels are reviewed from molecular simulation to water wettability, followed by reversible switching of water wettability via external stimuli (temperature and voltage). Liquid transport and two confinement strategies in nanochannels of melt wetting and liquid wetting are also included. Then, molecular simulation, water wettability, liquid transport, and confinement in nanochannels are introduced for 2D nanochannels and 3D nanochannels, respectively. Based on the wettability in nanochannels, broad applications of various nanochannels are presented. Finally, the perspective for future challenges in the wettability and applications of nanochannels is discussed.

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Section: Wettability In 1d Nanochannelsmentioning

confidence: 99%

Section: Applications Of Nanochannelsmentioning

confidence: 99%

Wettability and Applications of Nanochannels

2018

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“…Therefore, the PS solution is isolated in the center of the nanopores. The cylindrical PS solution then undulates and becomes spherical solution domains to reduce the interfacial areas between PS solution and acetic acid . The transformation process is similar to the Rayleigh‐instability‐type transformation, which is driven by the reduction of the surface areas or the interfacial areas .…”

Section: Resultsmentioning

confidence: 99%

Fabrication of Multicomponent Polymer Nanostructures Containing PMMA Shells and Encapsulated PS Nanospheres in the Nanopores of Anodic Aluminum Oxide Templates

Huan

Chang

et al. 2015

Macromol. Rapid Commun.

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Multi-component polymer nanomaterials have attracted great attention because of their applications in areas such as biomedicine, tissue engineering, and organic solar cells. The precise control over the morphologies of multi-component polymer nanomaterials, however, is still a great challenge. In this work, the fabrication of poly(methyl methacrylate)(PMMA)/poly-styrene (PS) nanostructures that contain PMMA shells and encapsulated PS nanospheres is studied. The nanostructures are prepared using a triple solution wetting method with anodic aluminum oxide (AAO) templates. The nanopores of the templates are wetted sequentially by PS solutions in dimethylformamide (DMF), PMMA solutions in acetic acid, and water. The compositions and morphologies of the nanostructures are controlled by the interactions between the polymers, solvents, and AAO walls. This work not only presents a feasible method to prepare multi-component polymer nanomaterials, but also leads to a better understanding of polymer-solvent interactions in confined geometries.

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“…Therefore, nanoporous AAO templates with self‐organized hexagonal arrays of uniform parallel nanochannels have been intensively utilized as a popular template system for fabricating various functional polymer nanostructures. By infiltrating the polymers into nanopores, unusual 1D nanoscale structures with novel morphology, specific orientation, reduced crystallinity, enhanced mobility, gradient distributed composition, gradient distributed crystallites, and high thermal conductivity were produced in nanopores of AAO templates.…”

Section: Anodic Aluminum Oxide Template Techniquementioning

confidence: 99%

Ordered Organic Nanostructures Fabricated from Anodic Alumina Oxide Templates for Organic Bulk‐Heterojunction Photovoltaics

Yang

Cao

et al. 2014

Macro Chemistry & Physics

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Solution‐processable organic photovoltaics (OPVs) attract much attention due to their potential as low‐cost and lightweight sources of renewable energy. The power conversion efficiency (PCE) of state‐of‐the‐art OPVs based on bulk‐heterojunction and tandem structures can reach over 10.0%, resulting from the progress in new materials, device engineering, device physics, etc. In particular, the fabrication and controllability of solution‐processable organic active‐layer thin films play an important role in the performance of OPV devices. The anodic aluminum oxide (AAO) template method is a versatile and fascinating technique for fabricating ordered organic nanostructures with controlled properties. Here, a review is given on the solution‐based fabrication of ordered organic semiconductor nanostructures by AAO templates, as well as its application in OPVs.

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Effect of Nonsolvent on the Formation of Polymer Nanomaterials in the Nanopores of Anodic Aluminum Oxide Templates

Cited by 47 publications

References 39 publications

Wettability and Applications of Nanochannels

Wettability and Applications of Nanochannels

Fabrication of Multicomponent Polymer Nanostructures Containing PMMA Shells and Encapsulated PS Nanospheres in the Nanopores of Anodic Aluminum Oxide Templates

Ordered Organic Nanostructures Fabricated from Anodic Alumina Oxide Templates for Organic Bulk‐Heterojunction Photovoltaics

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