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Bio-based Polyurethane Based on a Dynamic Covalent Network with Damage Tolerance for Controlled Release of Fertilizers

Zhen Yu, Dongdong Cheng, Bin Gao, Yuanyuan Yao, Chenghao Liu, Junyin Li, Chun Wang, Jiazhuo Xie, Shugang Zhang, Li Zhao, Yuechao Yang

2022ACS Applied Materials & Interfaces33 citationsDOI

Abstract

Bio-based polyurethanes are promising for the controlled release of nutrients and fertilizers, but their toughness and plasticity need to be improved. We developed a smooth, dense, elastic, and indestructible bio-based polyurethane (BPU) coating with a nutrient controlled release ∼150% superior, a tensile strength ∼300% higher, and a toughness ∼1200% higher than those for the original BPU coating. Through a one-step reaction of soybean oil polyols (accounting for more than 60%), isocyanate, and benzil dioxime, the dynamic covalent network based on oxime-carbamate replaces part of irreversible covalent cross-linking. The dynamic fracture-bonding reaction in the modified coating BPU can effectively promote the hydrogen bond recombination and oxime-carbamate chain migration in the coating process, which avoids the structural defects caused by coating tear and fertilizer collision. This work provides a simple and versatile strategy for building controlled-release fertilizer coatings.

Topics & Concepts

Materials sciencePolyurethaneCoatingIsocyanateCovalent bondCarbamateToughnessUltimate tensile strengthComposite materialDiazineChemical engineeringFracture toughnessOrganic chemistryChemistryEngineeringPolymer-Based Agricultural Enhancementsbiodegradable polymer synthesis and propertiesElectrospun Nanofibers in Biomedical Applications
Bio-based Polyurethane Based on a Dynamic Covalent Network with Damage Tolerance for Controlled Release of Fertilizers | Litcius