摘要
以木质素磺酸(LS)为分散剂,通过原位聚合法制备了木质素磺酸-聚乙基苯胺(LSP)复合物,研究了LSP的银离子吸附性能。研究结果表明:LS的加入并未对聚乙基苯胺的结构造成破坏;LS不同添加量情况下制备的LSP复合物的银离子吸附性能有较大差异;同时,吸附时间、银离子初始浓度及吸附温度均对LSP复合物的银离子吸附性能有较大影响。当LS添加量为10%时制备的复合物LSP10对银离子具有最优吸附效果,其饱和吸附容量可达1 799.8 mg/g。对吸附溶液p H值的变化及LSP10吸附银离子后产物的分析表明,LSP10对银离子的吸附过程中发生了离子交换和氧化还原反应,银离子被还原成直径为8~72 nm的银纳米颗粒。
Lignosulfonate-polyethylaniline(LSP) composite was prepared via an in-situ polymerization from N-ethylaniline(NEA) monomers with using lignosulfonate(LS) as a dispersant.The adsorption performance of silver ions on the LSP composite was examined under different adsorption conditions.The results showed that the structure of polyethylaniline was not destroyed by the introducting of LS.Adsorption performances of silver ions onto LSP composites prepared under different LS feed contents are quite different.Meanwhiles,adsorption conditions including adsorption time,initial silver ion concentration and adsorption temperature,greatly affected the adsorption performances.When the LS feed content was 10%,the obtained LSP10 composite exhibited an optimal silver-ion adsorption capacity with saturated adsorption capacity of 1 799.8 mg/g.Furthermore,the adsorption mechanism was verified by measuring the decline in p H value of the silver-ion solution during the adsorption process,and by characterizing the product of the LSP10 composite after adsorption.The results showed that silver ions were reduced to silver nanoparticles with diameters of 8-72 nm during the adsorption process by ions exchange and redox reaction between the LSP10 composite and silver ions.
出处
《林产化学与工业》
EI
CAS
CSCD
北大核心
2016年第3期36-42,共7页
Chemistry and Industry of Forest Products
基金
福州大学2013年度国家大学生创新创业训练计划项目(201310386020)
关键词
木质素磺酸
聚乙基苯胺
复合物
银离子
吸附
lignosulfonate
polyethylaniline
composite
silver ion
adsorption