Startseite Technik Microfluidic Preparation of Multicompartment Microcapsules for Isolated Co-encapsulation and Controlled Release of Diverse Components
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Microfluidic Preparation of Multicompartment Microcapsules for Isolated Co-encapsulation and Controlled Release of Diverse Components

  • Wei Wang , Tao Luo , Xiao-Jie Ju EMAIL logo , Rui Xie , Li Liu und Liang-Yin Chu EMAIL logo
Veröffentlicht/Copyright: 22. September 2012
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International Journal of Nonlinear Sciences and Numerical Simulation
Aus der Zeitschrift International Journal of Nonlinear Sciences and Numerical Simulation Band 13 Heft 5

Abstract

Thermo-responsive multicompartment microcapsules for co-encapsulation and controlled release of different lipophilic components are developed from multicomponent-double-emulsion templates by microfluidics. Each of the microcapsule comprises a thermo-responsive poly(N-isopropylacrylamide) (PNIPAM) shell and different oil cores. The different oil cores can be used as separate compartments for co-encapsulation of distinct lipophilic components. The precise manipulation of different oil cores afforded by our microfluidic device enables the fabrication of microcapsules with select number of each core, for optimizing the encapsulation of different lipophilic components. Because of the shell shrinking during heating process due to the thermo-responsive PNIPAM network, different lipophilic components co-encapsulated in the microcapsule can be simultaneously released via an external thermal trigger. The thermo-responsive multicompartment microcapsule provides an efficient system for co-encapsulation and controlled release of multiple lipophilic components. The microfluidic preparation approach presented here shows exciting potential in the design and fabrication of functional multicompartment microcapsules for co-encapsulation techniques.

Keywords: microfluidics; multicompartment microcapsules; co-encapsulation; controlled release; thermo-responsive materials
PACS®(2010): 47.57.jb; 81.16.-c
Received: 2011-7-19
Accepted: 2012-3-8
Published Online: 2012-9-22
Published in Print: 2012-9-19

©2012 by De Gruyter

Artikel in diesem Heft

  1. Frontmatter
  3. CD4+ T Cell Counting by Impedance Measurement on a Chip with Fluidic Electrodes
  4. Highly Non-linear Microfluidic Resistor Elements for Flow Rate-dependent Addressing of Microchannels
  5. Microfluidic Preparation of Multicompartment Microcapsules for Isolated Co-encapsulation and Controlled Release of Diverse Components
  6. Joule Heating Effect in Constant Voltage Mode Isotachophoresis in a Microchannel
  7. Cavitation in Negative-pressure Microcapillary Devices with Tapered Constrictions: Experiment and Numerical Simulation
  8. Beating the Jetting Regime
https://doi.org/10.1515/ijnsns-2012-0402
Schlagwörter für diesen Artikel
microfluidics; multicompartment microcapsules; co-encapsulation; controlled release; thermo-responsive materials

Artikel in diesem Heft

  1. Frontmatter
  3. CD4+ T Cell Counting by Impedance Measurement on a Chip with Fluidic Electrodes
  4. Highly Non-linear Microfluidic Resistor Elements for Flow Rate-dependent Addressing of Microchannels
  5. Microfluidic Preparation of Multicompartment Microcapsules for Isolated Co-encapsulation and Controlled Release of Diverse Components
  6. Joule Heating Effect in Constant Voltage Mode Isotachophoresis in a Microchannel
  7. Cavitation in Negative-pressure Microcapillary Devices with Tapered Constrictions: Experiment and Numerical Simulation
  8. Beating the Jetting Regime
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