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作 者:李延洁[1] 周竹发[1] 王春蓉[1] 冯杰 田冉冉[1] 戴小春[1] 李勇
机构地区:[1]苏州大学材料与化学化工学部,江苏苏州215123 [2]中国高岭土公司,江苏苏州215151
出 处:《化工学报》2010年第3期789-794,共6页CIESC Journal
基 金:苏州市工业重点攻关项目(SG0824)~~
摘 要:为使纳米白炭黑具有强疏水性,在传统硅烷偶联剂改性工艺基础上,引入了硬脂酸进行复合改性,制备出了具有高疏水性能的纳米白炭黑。采用红外光谱(FTIR)、X射线光电子能谱(XPS)、接触角测试和沉降实验等研究了改性后试样的结构和性能,并讨论分析了复合改性的机理。结果表明:通过硅烷偶联剂改性,白炭黑表面接枝了氨基(—NH2)基团;硬脂酸改性后,—NH2基团与硬脂酸的羧基基团(—COOH)形成酰胺键(—CONH—),白炭黑最终表面形成了疏水性能优异的—(CH2)3COHN—(CH2)16CH3基团。复合改性后的纳米白炭黑表面通过化学键接枝了硬脂酸分子,与水的接触角达到了140°,具有优异的疏水性能。To obtain strong hydrophobic property of silica,on the basis of traditional modification process with silane coupling agent stearic acid was introduced as complex modifier to modify the nano-silica powder.The modified silica particles were characterized with Fourier transform infrared analysis(FTIR),X-ray photoelectron spectroscopy(XPS),contact angle tests and sedimentation tests.The complex modification mechanism was also discussed.The results showed that amino group(—NH2)was grafted successfully onto the surface of nano-silica particles by modification with silane coupling agent.After the second modification with stearic acid,amide bond(—CONH—)was formed by amino group(—NH2)and carboxyl group(—COOH)of stearic acid.As a result,the —(CH2)3COHN—(CH2)16CH3 group was obtained on the surface of nano-silica particles,which had excellent hydrophobic property.Because of the complex modification,the stearic acid molecules were grafted on the surface of nano-silica particles by chemical bonds,and the contact angle could reach 140°.
分 类 号:TQ170.1[化学工程—硅酸盐工业]
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