| Literature DB >> 30234986 |
Lu Liu1, Tianlin Shen1, Yuechao Yang1,2, Bin Gao3, Yuncong C Li2, Jiazhuo Xie1, Yafu Tang1, Shugang Zhang1, Zhonghua Wang1, Jianqiu Chen4.
Abstract
To improve nitrogen (N) use efficiency and minimize environmental pollution caused by fertilizer overuse, novel bio-based large tablet controlled-release urea (LTCRU) was prepared using bio-based coating materials to coat large tablet urea (LTU) derived from urea prills (U). Nano fumed silica (NFS) was added to the bio-based coating materials to improve the slow-release properties. The surface area of the LTU and U was measured by three-dimensional scanning. In comparison to U, LTU had a smaller surface area/weight ratio, which can reduce the coating materials. Scanning electron microscopy analysis showed that the addition of NFS in bio-based coating materials reduced the porosity of the coating shells of LTCRUs and, thus, enhanced the N release longevity of the controlled-released fertilizer. Dependent upon the pores on the coating shells of LTCRU, two N release patterns were revealed. Because of the good release characteristics, the novel LTCRU shows great potential to support sustainable agricultural production.Entities:
Keywords: bio-based material; modified large tablet controlled-release urea; nano fumed silica; release rate; surface area
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Year: 2018 PMID: 30234986 DOI: 10.1021/acs.jafc.8b04042
Source DB: PubMed Journal: J Agric Food Chem ISSN: 0021-8561 Impact factor: 5.279