摘要
以正硅酸乙酯(TEOS)为硅源,采用溶胶-凝胶结合超临界CO2干燥制得高纯度微米级液相色谱填料基质多孔硅球。采用BET,TG-DTG,SEM,FT-IR,XRD和激光粒度仪等表征方法对样品进行分析,考察真空干燥(WO)、超临界CO2间歇干燥(SCF-I)和超临界CO2连续干燥(SCF-C)3种干燥工艺的可行性,结果表明,真空干燥、Sc CO2间歇干燥和Sc CO2连续干燥得到的多孔硅球比表面积分别为69.04、268.40和513.41 m2·g-1。采用Sc CO2干燥法能够大幅度提高多孔硅球产品的比表面积。参照色谱填料理论最佳比表面积为300 m2·g-1可知,Sc CO2间歇干燥较Sc CO2连续干燥更适合应用于液相色谱填料基质多孔硅球的制备。Sc CO2间歇干燥法制得硅胶微球球形规则且无团聚现象,孔体积为0.5758 m3·g-1,平均粒径(D50)为3μm,呈典型高斯分布,且分布范围较窄,为1~7μm。
Silica microspheres are of great interest in several areas such as liquid chromatography, medicine, biochemistry, colloidal chemistry and aerosol research. In this work, porous silica microspheres as packing matrix of HPLC were prepared from tetraethoxysilane(TEOS) by Sol-Gel method with carbon dioxide supercritical fluid drying technique. Conventional high-temperature vacuum dying(WO), intermittent supercritical fluid drying(SCF-I) and continuous supercritical fluid drying process(SCF-C) were discussed. Silica microspheres were characterized by BET, TG-DTG, SEM, FT-IR, XRD and zetasizer analysis system. The results showed that the silica particles with spherical morphology were successfully prepared by all of the three processes and agglomeration was avoided. The specific surface area of silica microspheres was 69.04, 268.40 and 513.41 m2·g-1prepared by WO, SCF-I and SCF-C, respectively. The specific surface area of porous silica microspheres obtained by supercritical fluid drying was higher than that obtained by vacuum drying. SCF-I process was the optimum selection for the packing matrix of HPLC. Silica microspheres obtained by SCF-I were mostly regular-ball with specific pore volume of 0.5758 m3·g-1 without particle agglomeration. The mean particle size(D50) was 3 μm and the particle size distribution followed typical Gaussian distribution with a narrow particle size varied from 1 μm to 7 μm.
出处
《化工学报》
EI
CAS
CSCD
北大核心
2015年第6期2313-2320,共8页
CIESC Journal
关键词
色谱
超临界流体
二氧化硅
超临界CO2间歇干燥
超临界CO2连续干燥
真空干燥
chromatography
supercritical fluid
silica
intermittent supercritical fluid drying
continuoussupercritical fluid drying
vacuum drying
