Particle-nested inverse opal structures as hierarchically structured large-scale membranes with tunable separation properties

Do Kyung Rhee; Bokyung Jung; Young Hun Kim; Seon Ju Yeo; Se Jin Choi; Ali Rauf; Sungsoo Han; Gi Ra Yi; Daeyeon Lee; Pil J. Yoo

doi:10.1021/am5029654

Particle-nested inverse opal structures as hierarchically structured large-scale membranes with tunable separation properties

Do Kyung Rhee, Bokyung Jung, Young Hun Kim, Seon Ju Yeo, Se Jin Choi, Ali Rauf, Sungsoo Han, Gi Ra Yi, Daeyeon Lee, Pil J. Yoo

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

37 Scopus citations

Abstract

A novel multiscale porous architecture where an individual particle is nested inside a hollow chamber of inverse-opal (IO) frame is created using a large scale self-Assembly of core-shell structured colloidal particles and subsequent selective removal of the outer shells of the colloids. Since the nested particle is smaller than the size of individual IO chamber, the interconnected nanochannels are spontaneously formed within the structured frame. The size of internal nanochannels is readily tuned to have high permeability and size-selective separation capability, which is successfully tested for nanoparticle separation.

Original language	English
Pages (from-to)	9950-9954
Number of pages	5
Journal	ACS Applied Materials and Interfaces
Volume	6
Issue number	13
DOIs	https://doi.org/10.1021/am5029654
State	Published - 9 Jul 2014
Externally published	Yes

Keywords

core-shell
inverse-opal
membranes
nanochannels
separation

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10.1021/am5029654

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title = "Particle-nested inverse opal structures as hierarchically structured large-scale membranes with tunable separation properties",

abstract = "A novel multiscale porous architecture where an individual particle is nested inside a hollow chamber of inverse-opal (IO) frame is created using a large scale self-Assembly of core-shell structured colloidal particles and subsequent selective removal of the outer shells of the colloids. Since the nested particle is smaller than the size of individual IO chamber, the interconnected nanochannels are spontaneously formed within the structured frame. The size of internal nanochannels is readily tuned to have high permeability and size-selective separation capability, which is successfully tested for nanoparticle separation.",

keywords = "core-shell, inverse-opal, membranes, nanochannels, separation",

author = "Rhee, \{Do Kyung\} and Bokyung Jung and Kim, \{Young Hun\} and Yeo, \{Seon Ju\} and Choi, \{Se Jin\} and Ali Rauf and Sungsoo Han and Yi, \{Gi Ra\} and Daeyeon Lee and Yoo, \{Pil J.\}",

year = "2014",

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doi = "10.1021/am5029654",

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AU - Rhee, Do Kyung

AU - Jung, Bokyung

AU - Kim, Young Hun

AU - Yeo, Seon Ju

AU - Choi, Se Jin

AU - Rauf, Ali

AU - Han, Sungsoo

AU - Yi, Gi Ra

AU - Lee, Daeyeon

AU - Yoo, Pil J.

PY - 2014/7/9

Y1 - 2014/7/9

N2 - A novel multiscale porous architecture where an individual particle is nested inside a hollow chamber of inverse-opal (IO) frame is created using a large scale self-Assembly of core-shell structured colloidal particles and subsequent selective removal of the outer shells of the colloids. Since the nested particle is smaller than the size of individual IO chamber, the interconnected nanochannels are spontaneously formed within the structured frame. The size of internal nanochannels is readily tuned to have high permeability and size-selective separation capability, which is successfully tested for nanoparticle separation.

AB - A novel multiscale porous architecture where an individual particle is nested inside a hollow chamber of inverse-opal (IO) frame is created using a large scale self-Assembly of core-shell structured colloidal particles and subsequent selective removal of the outer shells of the colloids. Since the nested particle is smaller than the size of individual IO chamber, the interconnected nanochannels are spontaneously formed within the structured frame. The size of internal nanochannels is readily tuned to have high permeability and size-selective separation capability, which is successfully tested for nanoparticle separation.

KW - core-shell

KW - inverse-opal

KW - membranes

KW - nanochannels

KW - separation

UR - https://www.scopus.com/pages/publications/84904102975

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JO - ACS Applied Materials and Interfaces

JF - ACS Applied Materials and Interfaces

IS - 13

ER -

Particle-nested inverse opal structures as hierarchically structured large-scale membranes with tunable separation properties

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Keywords

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