Copyrolysis of Biomass, Bentonite, and Nutrients as a New Strategy for the Synthesis of Improved Biochar-Based Slow-Release Fertilizers
ACS Sustainable Chemistry & Engineering(2020)
Abstract
Biochar is gaining increasing attention in the field of agriculture, since it can not only be used as a soil amendment for improving soil quality but also as a promising carrier for slow-release fertilizers. Currently, developing cost-effective, environmentally friendly, and high-performance biochar-based slow-release fertilizers (BSRFs) is still challenging. In this study, we propose a new strategy for the synthesis of improved BSRFs by copyrolysis of biomass (cotton straw), nutrients (K3PO4), and bentonite under microwave irradiation. The results show that the presence of bentonite during the copyrolysis process is beneficial for improving the slow-release performance of BSRFs. The mechanistic study based on SEM, TEM, XRD, and XPS characterizations integrated with the release kinetic study reveal that the presence of bentonite in the pyrolysis process facilitates the formation of a desirable structure within BSRFs to improve the slow-release performance, and the formation of P-related chemical bonds dur...
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Key words
Leaching,Pot experiment,Higuchi model,Release mechanism
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