Chitosan-graft- poly (ε-caprolactone) copolymers: synthesis and use as a biodegradable coating for slow release of water-soluble fertilizers

Nov 16, 2023, 12:40 PM
10m
The Mohamed VI Museum of Water Civilization (Marrakesh, Morocco)

The Mohamed VI Museum of Water Civilization

Marrakesh, Morocco

Oral presentation - in person Agriculture Sustainable Agriculture and Water Efficiency

Speaker

EL HASSAN BOUTRIOUIA (Cadi Ayyad University of Marrakech, Morocco)

Description

The urgent need for efficient agriculture to increase crop and food has fueled the development of coated fertilizers with slow-release kinetics, water economy, and full degradability to avoid negative environmental impact. In this context, we herein report the synthesis of poly (ε-caprolactone) (PCL) grafted from chitosan (CS) as a new class of biodegradable coating materials. The CS-g-PCL were prepared following a one-pot, two-step strategy, in which the primary amines of CS first react with ε-caprolactone (CL) to form CL-oligomers linked to CS via amide bonds terminated with hydroxyls, which together with the native hydroxyls of CS initiate the ring-opening polymerization of CL after addition of Sn(C≡CPh)4 as catalyst. Owing to the great stability of the used catalyst, the high molar mass of PCL grafted onto CS was successfully obtained under trivial open-air conditions. Different copolymers (CS-g-PCL) were prepared by varying the CS content. The structural characterization of CS-g-PCL was carried out using FTIR, X-ray diffraction, contact angle, and size exclusion chromatography while the thermal and mechanical characterization of the prepared CS-g-PCL were compared to the neat PCL. Next, using a laboratory rotary drum, CS-g-PCL was implemented to uniformly coat granular diammonium phosphate fertilizer (DAP). Consequently, the kinetic release of nitrogen and phosphorus was significantly delayed compared to that observed with uncoated DAP (conventional fertilizers). The degradation of CS-g-PCL was examined under aerobic conditions and showed a significant increase in their biodegradability with respect to neat PCL.

Primary author

EL HASSAN BOUTRIOUIA (Cadi Ayyad University of Marrakech, Morocco)

Co-authors

Abdelkrim El Kadib (Euro-Mediterranean University, Fes, 30070 (Morocco)) Abdellatif El meziane (Cadi Ayyad University of Marrakech (Morocco)) Hicham Ben Youcef (Mohammed VI Polytechnic University) Prof. Hicham Qayouh (FSTG-University of Cadi Ayyad) Prof. Mohamed Hassen V Baouab (University of Monastir) Mohammed Lahcini (Cadi Ayyad University of Marrakech (Morocco)) Prof. Mustapha Raihane (FSTG-University of Cadi Ayyad) Taha El Assimi (Cadi Ayyad University of Marrakech (Morocco))

Presentation materials