Layer-by-layer assembled nanotubes as biomimetic nanoreactors for calcium carbonate deposition

Qiang He; Helmuth Möhwald; Junbai Li

doi:10.1002/marc.200900261

Layer-by-layer assembled nanotubes as biomimetic nanoreactors for calcium carbonate deposition

Qiang He
, Helmuth Möhwald
, Junbai Li^*

^*Corresponding author for this work

Max Planck Institute of Colloids and Interfaces
CAS - Institute of Chemistry

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

23 Scopus citations

Abstract

Enzyme-loaded magnetic polyelectrolyte multilayer nanotubes prepared by layer-by-layer assembly combined with the porous template could be used as biomimetic nanoreactors. It is demonstrated that calcium carbonate can be biomimetically synthesized inside the cavities of the polyelectrolyte nanotubes by the catalysis of urease, and the size of the calcium carbonate precipitates was controlled by the cavity dimensions. The metastable structure of the calcium carbonate precipitates inside the nanotubes was protected by the outer shell of the polyelectrolyte multilayers. These features may allow polyelectrolyte nanotubes to be applied in the fields of nanomaterials synthesis, controlled release, and drug delivery.

Original language	English
Pages (from-to)	1538-1542
Number of pages	5
Journal	Macromolecular Rapid Communications
Volume	30
Issue number	18
DOIs	https://doi.org/10.1002/marc.200900261
State	Published - 17 Sep 2009
Externally published	Yes

Keywords

Biomimetic
Biomineralization
Layer-by-layer
Nanoreactors
Nanotubes

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10.1002/marc.200900261

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abstract = "Enzyme-loaded magnetic polyelectrolyte multilayer nanotubes prepared by layer-by-layer assembly combined with the porous template could be used as biomimetic nanoreactors. It is demonstrated that calcium carbonate can be biomimetically synthesized inside the cavities of the polyelectrolyte nanotubes by the catalysis of urease, and the size of the calcium carbonate precipitates was controlled by the cavity dimensions. The metastable structure of the calcium carbonate precipitates inside the nanotubes was protected by the outer shell of the polyelectrolyte multilayers. These features may allow polyelectrolyte nanotubes to be applied in the fields of nanomaterials synthesis, controlled release, and drug delivery.",

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AU - He, Qiang

AU - Möhwald, Helmuth

AU - Li, Junbai

PY - 2009/9/17

Y1 - 2009/9/17

N2 - Enzyme-loaded magnetic polyelectrolyte multilayer nanotubes prepared by layer-by-layer assembly combined with the porous template could be used as biomimetic nanoreactors. It is demonstrated that calcium carbonate can be biomimetically synthesized inside the cavities of the polyelectrolyte nanotubes by the catalysis of urease, and the size of the calcium carbonate precipitates was controlled by the cavity dimensions. The metastable structure of the calcium carbonate precipitates inside the nanotubes was protected by the outer shell of the polyelectrolyte multilayers. These features may allow polyelectrolyte nanotubes to be applied in the fields of nanomaterials synthesis, controlled release, and drug delivery.

AB - Enzyme-loaded magnetic polyelectrolyte multilayer nanotubes prepared by layer-by-layer assembly combined with the porous template could be used as biomimetic nanoreactors. It is demonstrated that calcium carbonate can be biomimetically synthesized inside the cavities of the polyelectrolyte nanotubes by the catalysis of urease, and the size of the calcium carbonate precipitates was controlled by the cavity dimensions. The metastable structure of the calcium carbonate precipitates inside the nanotubes was protected by the outer shell of the polyelectrolyte multilayers. These features may allow polyelectrolyte nanotubes to be applied in the fields of nanomaterials synthesis, controlled release, and drug delivery.

KW - Biomimetic

KW - Biomineralization

KW - Layer-by-layer

KW - Nanoreactors

KW - Nanotubes

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M3 - 文章

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JO - Macromolecular Rapid Communications

JF - Macromolecular Rapid Communications

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ER -

Layer-by-layer assembled nanotubes as biomimetic nanoreactors for calcium carbonate deposition

Abstract

Keywords

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