Fully Degradable Polyphosphoester Cubosomes for Sustainable Agrochemical Delivery.

Azhdari S, Linders J, Coban D, Stank TJ, Dargel C, Gojzewski H, Hellweg T, Groschel AH, Wurm FR (2024)
Advanced materials : 2406831.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Azhdari, Suna; Linders, Jurgen; Coban, Deniz; Stank, Tim JulianUniBi ; Dargel, Carina; Gojzewski, Hubert; Hellweg, ThomasUniBi ; Groschel, Andre H; Wurm, Frederik R
Abstract / Bemerkung
Microplastic pollution and the urgent need for sustainable agriculture have raised interest in developing degradable carriers for controlled agrochemical release. Porous polymeric particles are particularly promising due to their unique release profiles compared to solid or core-shell carriers. However, creating degradable, mesoporous (2-50 nm) microparticles is challenging, and their potential for agrochemical delivery is largely unexplored. A straightforward self-assembly method is demonstrated for fully degradable porous polymer cubosomes (PCs), showcasing their ability to load and release agrochemicals. Using fully degradable block copolymers (BCPs), poly(ethyl ethylene phosphate)-b-polylactide (PEEP-b-PLA), PCs are synthesized in water with high inner order and open pores averaging 19 ± 3 nm in diameter. During the self-assembly process in the presence of the hydrophobic fungicide tebuconazole, polymersomes transform into PCs by enriching the hydrophobic polymer domain and altering the BCP packing parameter. After self-assemby, highly porous and fungicide-loaded PCs are obtained. Fungicide-loaded PCs show high antimycotic activity against Botrytis cinerea (grey mold), adhere to Vitis vinifera Riesling leaves even after simulated rain, and release the fungicide continuously over several days with different release-kinetics compared to solid particles. PCs hydrolyze completely into lactic acid and phosphate derivatives, highlighting their potential as microplastic-free agrochemical delivery systems for sustainable agriculture. © 2024 The Author(s). Advanced Materials published by Wiley‐VCH GmbH.
Erscheinungsjahr
2024
Zeitschriftentitel
Advanced materials
Art.-Nr.
2406831
eISSN
1521-4095
Page URI
https://pub.uni-bielefeld.de/record/2991881

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Azhdari S, Linders J, Coban D, et al. Fully Degradable Polyphosphoester Cubosomes for Sustainable Agrochemical Delivery. Advanced materials . 2024: 2406831.
Azhdari, S., Linders, J., Coban, D., Stank, T. J., Dargel, C., Gojzewski, H., Hellweg, T., et al. (2024). Fully Degradable Polyphosphoester Cubosomes for Sustainable Agrochemical Delivery. Advanced materials , 2406831. https://doi.org/10.1002/adma.202406831
Azhdari, Suna, Linders, Jurgen, Coban, Deniz, Stank, Tim Julian, Dargel, Carina, Gojzewski, Hubert, Hellweg, Thomas, Groschel, Andre H, and Wurm, Frederik R. 2024. “Fully Degradable Polyphosphoester Cubosomes for Sustainable Agrochemical Delivery.”. Advanced materials : 2406831.
Azhdari, S., Linders, J., Coban, D., Stank, T. J., Dargel, C., Gojzewski, H., Hellweg, T., Groschel, A. H., and Wurm, F. R. (2024). Fully Degradable Polyphosphoester Cubosomes for Sustainable Agrochemical Delivery. Advanced materials :2406831.
Azhdari, S., et al., 2024. Fully Degradable Polyphosphoester Cubosomes for Sustainable Agrochemical Delivery. Advanced materials , : 2406831.
S. Azhdari, et al., “Fully Degradable Polyphosphoester Cubosomes for Sustainable Agrochemical Delivery.”, Advanced materials , 2024, : 2406831.
Azhdari, S., Linders, J., Coban, D., Stank, T.J., Dargel, C., Gojzewski, H., Hellweg, T., Groschel, A.H., Wurm, F.R.: Fully Degradable Polyphosphoester Cubosomes for Sustainable Agrochemical Delivery. Advanced materials . : 2406831 (2024).
Azhdari, Suna, Linders, Jurgen, Coban, Deniz, Stank, Tim Julian, Dargel, Carina, Gojzewski, Hubert, Hellweg, Thomas, Groschel, Andre H, and Wurm, Frederik R. “Fully Degradable Polyphosphoester Cubosomes for Sustainable Agrochemical Delivery.”. Advanced materials (2024): 2406831.

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