Vigilancia Tecnológica

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Ring?opening copolymerization of ??caprolactone and ??valerolactone to cyclic polyesters by a bimolecular system

The temperature?responsive pesticide delivery microcapsule, based on maleic anhydride?functionalized cellulose nanocrystals?stabilized Pickering emulsion, exhibited a high encapsulation rate and drug loading efficiency. Moreover, it demonstrated significant advantages over commercially available water?dispersed particles of imidacloprid in terms of leaf surface diffusion and retention.AbstractThe efficient use of pesticides is conducive to the harmonious coexistence of humans and nature, and pesticide transport carriers can enhance the utilization value of pesticides. However, design flaws in many pesticide carriers have resulted in numerous environmental and toxicity problems. Therefore, this paper proposed a method for synthesizing pesticide microcapsules using Pickering emulsion templates stabilized by maleic anhydride?functionalized cellulose nanocrystals?g?poly (methyl methacrylate) (MACNCs?g?MMA), viz., simple radical polymerization of maleic anhydride?functionalized cellulose nanocrystals with methyl methacrylate in Pickering emulsion. The structure and morphology of microcapsules were characterized via the FT?IR, XRD, TG?DTG, and SEM techniques. The imidacloprid?loaded MACNCs?g?MMA (IMI@MACNCs?g?MMA) presented a high encapsulation efficiency (~94.13%) and drug loading efficiency (~24.00%). The release behavior was affected by temperature, viz., higher temperature promoted the release of IMI. Regarding the spread and retention on the leaf surface, the IMI@MACNCs?g?MMA demonstrated significant advantages over commercial IMI water?dispersible granules (CG) (36.9° vs. 104.9° for contact angle, 14.3 vs. 30.0?mg?cm?2 for retention). This study provides a promising pesticide formula for sustainable agriculture.


Fecha publicación: 2024/10/16

Journal of Applied Polymer Science

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