Synthesis and Characterization of Stimuli-Responsive Poly(2-dimethylamino-ethylmethacrylate)-Grafted Chitosan Microcapsule for Controlled Pyraclostrobin Release

Controllable pesticide release in response to environmental stimuli is highly desirable for better efficacy and fewer adverse effects. Combining the merits of natural and synthetic polymers, pH and temperature dual-responsive chitosan copolymer (CS- -PDMAEMA) was facilely prepared through free radic...

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Bibliographic Details
Published in:International journal of molecular sciences 2018-03, Vol.19 (3), p.854
Main Authors: Xu, Chunli, Cao, Lidong, Zhao, Pengyue, Zhou, Zhaolu, Cao, Chong, Zhu, Feng, Li, Fengmin, Huang, Qiliang
Format: Article
Language:English
Subjects:
Acute toxicity
Animals
Aquatic organisms
Capsules - chemical synthesis
Capsules - radiation effects
Chitosan
Chitosan - chemistry
controlled release
Copolymerization
Crosslinking
Drug Liberation
Environmental effects
Fish
Free radicals
Graft copolymers
grafted chitosan
Light irradiation
Methacrylates - chemistry
microcapsulation
Nylons - chemistry
Organic chemistry
Pesticides
Pesticides - pharmacokinetics
Pesticides - toxicity
photostablity
Plant protection
Polymers
pyraclostrobin
Stability
Strobilurins - pharmacokinetics
Strobilurins - toxicity
Ultraviolet radiation
Ultraviolet Rays
Zebrafish
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Summary:Controllable pesticide release in response to environmental stimuli is highly desirable for better efficacy and fewer adverse effects. Combining the merits of natural and synthetic polymers, pH and temperature dual-responsive chitosan copolymer (CS- -PDMAEMA) was facilely prepared through free radical graft copolymerization with 2-(dimethylamino) ethyl 2-methacrylate (DMAEMA) as the vinyl monomer. An emulsion chemical cross-linking method was used to expediently fabricate pyraclostrobin microcapsules in situ entrapping the pesticide. The loading content and encapsulation efficiency were 18.79% and 64.51%, respectively. The pyraclostrobin-loaded microcapsules showed pH-and thermo responsive release. Microcapsulation can address the inherent limitation of pyraclostrobin that is photo unstable and highly toxic on aquatic organisms. Compared to free pyraclostrobin, microcapsulation could dramatically improve its photostability under ultraviolet light irradiation. Lower acute toxicity against zebra fish on the first day and gradually similar toxicity over time with that of pyraclostrobin technical concentrate were in accordance with the release profiles of pyraclostrobin microcapsules. This stimuli-responsive pesticide delivery system may find promising application potential in sustainable plant protection.
ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms19030854