1. Development of waste straw modified material to reduce soil N2O emission: An application strategy for adsorption of functional groups.
- Author
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Wang, Weishuai, Yang, Shiqi, Yang, Zhengli, and Zhang, Aiping
- Subjects
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GREENHOUSE gas mitigation , *FUNCTIONAL groups , *CORN straw , *ELECTRON microscope techniques , *STRAW - Abstract
The goal of this study was to enhance the utilization of millet straw and reduce N 2 O emissions, used the semi-interpenetrating (Semi-IPN) technology to develop a novel straw-based material (CSC-g-PAA/PPVA) through the composite integration of modified straw and linear polymer (PPVA). The fourier-transform infrared, x-ray diffraction, x-photoelectron spectroscopy and scanning electron microscopy techniques were be measured to provide evidence of the structure and morphology characterization of CSC-g-PAA/PPVA. The results demonstrated that it exhibited excellent water absorbency and enhanced the adsorption capacity of inorganic nitrogen, with the maximum adsorption of NH 4 + and NO 3 - were 94.5 mg/g and 70.3 mg/g, respectively. The properties of CSC-g-PAA/PPVA could significantly reduce N 2 O emissions, which was 42.5–95.7% lower than that of the fertilization groups, demonstrated that the modified material produced in this study had significant potential to reduce greenhouse gas emissions. [Display omitted] • The soil conditioner is derived from corn straw, which can enhance waste straw utilization. • The product is rich in typical functional group, providing active sites for NH 4 +, NO 3 - retention. • The straw-based conditioner has significant potential to reduce N 2 O emissions in soil. • Preparing by waste straw can reduce cost, is beneficial to industrial production. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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