Multifunctional PCL/Lignin-PCL Composite Films for Delivery of Atrazine and Metribuzin for Sustainable Agriculture Applications
Document Type
Article
Publication Date
7-21-2025
Abstract
Sustainable agriculture calls for the development of eco-friendly materials that possess desired properties and functionalities. In this study, the effect of incorporating lignin-grafted poly(ε-caprolactone) (LN-PCL) into a PCL matrix was evaluated. LN-PCL was synthesized by ring-opening polymerization (ROP), yielding polymers with varying PCL degrees of polymerization (DP 26–101) and amphiphilic properties. Incorporating LN-PCL into PCL films enhanced hydrogen bonding, crystallinity, and doubled Young’s modulus. SEM analysis showed smoother surfaces with higher DPs, while lower DPs reduced the contact angle from 78° to 68°. LN-PCL films absorbed >98% UVAB and >94% UVC light regardless of DP and degraded within 30 days. Release studies indicated controlled release rates of ATZ (<16%) and MTZ (46%) over 10 weeks. Overall, the UV protection, surface, mechanical, and controlled release properties of the LN-PCL/PCL films support the potential of these films as a carrier for chemicals with applicability in agriculture.
Publication Source (Journal or Book title)
ACS Agricultural Science and Technology
First Page
1351
Last Page
1361
Recommended Citation
Garcia, A., Mendez, O., Kewir, F., Patterson, G., Klamczynksi, A., Onu Olughu, O., Astete, C., McManus, J., & Sabliov, C. (2025). Multifunctional PCL/Lignin-PCL Composite Films for Delivery of Atrazine and Metribuzin for Sustainable Agriculture Applications. ACS Agricultural Science and Technology, 5 (7), 1351-1361. https://doi.org/10.1021/acsagscitech.5c00081