Convenient one-step approach based on stimuli-responsive sol-gel transition properties to directly build chitosan-alginate core-shell beads

Convenient one-step approach based on stimuli-responsive sol-gel transition properties to directly build chitosan-alginate core-shell beads

Herein, chitosan-alginate core-shell gel beads are directly fabricated by a convenient one-step dripping approach. In particular, the approach exquisitely utilizes both the pH-responsive sol-gel transition property of chitosan and the calcium-responsive sol-gel transition property of alginate. The a...

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Bibliographic Details
Published in:Food hydrocolloids Vol. 87; pp. 253 - 259
Main Authors: Qin, Chaoran, Zhou, Jing, Zhang, Zheng, Chen, Wei, Hu, Qian, Wang, Yifeng
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-02-2019
Subjects:
Alginate
Biopolymer
Chitosan
Core-shell structure
Sol-gel transition
Stimuli-responsive property
Alginate
Core-shell structure
Chitosan
Sol-gel transition
Biopolymer
Stimuli-responsive property
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Summary:Herein, chitosan-alginate core-shell gel beads are directly fabricated by a convenient one-step dripping approach. In particular, the approach exquisitely utilizes both the pH-responsive sol-gel transition property of chitosan and the calcium-responsive sol-gel transition property of alginate. The approach has a variety of benefits such as the simple method, the environmentally-friendly route (without using organic solvents and toxic reagents), the mild conditions (in aqueous solution at room temperature), and the easy post-treatment for the beads. Morphology observation from optical microscopy and scanning electron microscopy demonstrates that the resulting chitosan-alginate beads have a clear core-shell structure with a well-defined border between the core and the shell. The chitosan-alginate core-shell beads shows a good sphericity and monodispersity. Comparison experiments indicate that the shell thickness and the core state (solid or liquid) of the core-shell beads can be modulated by altering the preparation conditions (solution concentrations or pHs). Loading experiments demonstrate that the core-shell structure of the chitosan-alginate beads can be utilized to respectively load various components (e.g., fluorescent dyes, drugs, and nanoparticles) in different layers. Release studies reveal that the chitosan-alginate core-shell beads have attractive capabilities to regulate drug release through the pH-responsive sol-gel transition of the chitosan core as well as the thickness control of the alginate shell. [Display omitted] •A novel and simple one-step approach is developed to produce chitosan-alginate beads.•The approach exquisitely uses the stimuli-responsive sol-gel transition properties.•The resulting bead presents a core-shell structure with a well-defined boundary.•Various components can be respectively loaded in the different layers of the beads.•The chitosan-alginate beads have the capability to regulate the drug release behavior.
ISSN:0268-005X
1873-7137
DOI:10.1016/j.foodhyd.2018.08.001