3D Lattice Structure Control of Ordered Macroporous Material by Self-Assembly of Liquid Droplets

Yosuke Iwai; Yoshiaki Uchida; Hiroshi Yabu; Norikazu Nishiyama

doi:10.1002/marc.201600502

3D Lattice Structure Control of Ordered Macroporous Material by Self-Assembly of Liquid Droplets

Yosuke Iwai, Yoshiaki Uchida, Hiroshi Yabu, Norikazu Nishiyama

Advanced Institute for Materials Research (AIMR)

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

Microfluidic devices, which can continuously fabricate single emulsion with monodispersed droplets having a pore diameter of more than 100 μm in large numbers, can be applied to manufacture ordered macroporous films. 3D ordered macroporous films with a diameter of more than 100 μm can be fabricated using ordered arrays of the monodispersed droplets as templates of the macropores, which are self-assembled in the space between two parallel flat glass plates. As the gap between the glass plates increases, the number of the layer increases. Furthermore, in the case with two or more layers, the lattice structure of the macroporous films also changes due to the confinement effects. (Figure presented.).

Original language	English
Article number	1600502
Journal	Macromolecular Rapid Communications
Volume	38
Issue number	1
DOIs	https://doi.org/10.1002/marc.201600502
Publication status	Published - 2017 Jan 1

Keywords

confinement effects
droplets array
microfluidic devices
porous films

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abstract = "Microfluidic devices, which can continuously fabricate single emulsion with monodispersed droplets having a pore diameter of more than 100 μm in large numbers, can be applied to manufacture ordered macroporous films. 3D ordered macroporous films with a diameter of more than 100 μm can be fabricated using ordered arrays of the monodispersed droplets as templates of the macropores, which are self-assembled in the space between two parallel flat glass plates. As the gap between the glass plates increases, the number of the layer increases. Furthermore, in the case with two or more layers, the lattice structure of the macroporous films also changes due to the confinement effects. (Figure presented.).",

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AU - Iwai, Yosuke

AU - Uchida, Yoshiaki

AU - Yabu, Hiroshi

AU - Nishiyama, Norikazu

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AB - Microfluidic devices, which can continuously fabricate single emulsion with monodispersed droplets having a pore diameter of more than 100 μm in large numbers, can be applied to manufacture ordered macroporous films. 3D ordered macroporous films with a diameter of more than 100 μm can be fabricated using ordered arrays of the monodispersed droplets as templates of the macropores, which are self-assembled in the space between two parallel flat glass plates. As the gap between the glass plates increases, the number of the layer increases. Furthermore, in the case with two or more layers, the lattice structure of the macroporous films also changes due to the confinement effects. (Figure presented.).

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3D Lattice Structure Control of Ordered Macroporous Material by Self-Assembly of Liquid Droplets

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