复合改性硅胶的制备及用于噻吩类化合物分离的研究
摘要:
采用固相萃取法分离煤焦油中的噻吩类化合物,将酸和金属复合改性的硅胶作为固相萃取柱填料,以正戊烷与二氯甲烷的混合溶液(体积比为7:1)作为洗脱溶剂,探究在芳烃等竞争吸附化合物存在下,酸种类、质量浓度、用量及金属种类、负载量、反应温度对硅胶分离噻吩类化合物的影响.结果表明,14mL 50%(质量分数)的HNO3。及负载10%(质量分数)Cu+,60°C的反应温度为最优的酸氧化和金属改性条件.HNO3和Cu+复合改性硅胶对煤焦油中 BT/Co10H8、3,5-DMBT/C12H10,4-MDBT/C14H10之间的分离因子分别为1.57、1.27,1.26,高于 HNO3或Cu+改性硅胶的分离因子,因此HNO3和Cu+复合改性硅胶的选择性分离性能更优.通过对比改性前后硅胶的结构,发现HNO3,氧化在硅胶表面引人了含氧官能团,优化了硅胶的孔结构,为Cu+的负载提供了理想的基底,显著提高了Cu+在硅胶表面的负载量.复合改性之间存在协同作用·能够进一步提升硅胶对噻吩类化合物的分离性能。
The separation of thiophene compounds in coal tar was carried out by solid-phase extraction, in which silica gel modified with acid and metal complexes was used as the packing material of the SPE column, and a mixture of n-pentane and dichloromethane(volume ratio 7:1) was used as the elution solvent to investigate the effects of the type, mass concentration, and dosage of acid. as well as the type. loading, and reaction temperature of metals on the separation of thiophene com-pounds by silica gel in the presence of competing adsorption compounds, such as aromatic hydrocarbons. The results showed that the optimal conditions for acid oxidation and metal modification were, respectively,50%(mass fraction) HNO3 concentration, 14mL dosage, Cu+as the loaded metal ion, 10%(mass fraction) loading, and a reaction temperature of 60°C. The separation factors of BT/C10H8, 3,5-DMBT/C12H10, and 4-MDBT/C14H10 in coal tar modified by HNO3 and Cu+composite silica gel were 1.57, 1,27, and 1.26 respectively, which were higher than those of HNO3 or Cu+modified silica gel., Therefore, the selective separation performance of HNO3 and Cu+composite modified silica gel is better. By comparing the structure of silica gel before and after modification, it was found that the oxidation of HNO3 introduced oxygen-containing functional groups on the silica gel surface, optimized the pore structure of the slica gel, provided an ideal substrate for the loading of Cu+, and sig-nificantly increased the loading of Cu+ on the silica gel surface. There was a synergistic effect between the composite modifications, which could further enhance the separation performance of silica gel for thiophene compounds.
作者:
武晓星,侯唯强,孔娇,王美君,闫伦靖,鲍卫仁,常丽萍
Wu Xiaoxing, Hou Weiqiang, Kong Jiao, Wang Meijun, Yan Lunjing, Bao Weiren,Chang Liping
机构地区:
河南省地质局矿产资源勘查中心;河南省天空地遥感智能监测工程技术研究中心;河南省自然资源科技创新中心(地球物理深部探测研究);郑州大学化工学院
引用本文:
武晓星,侯唯强,孔娇等。复合改性硅胶的制备及用于噻盼类化合物分离的研究[J].河南师范大学学报(自然科学).2026,54(4) : 123-131.(Wu Xiaoxing. Hou Weiqiang.Kong Jiao,et al.Preparation of composite modified silica gel and its use for the separation of thiophene compounds[J].Journal of Henan Normal University (Natural Science Edition),2026,54(4) :123-131.DOI:10.16366/j.cnki.1000-2367.2025.04.08.0003.)
基金:
国家自然科学基金;中央引导地方科技发展资金项目;山西省科技创新人才团队专项项目
关键词:
复合改性;硅胶;选择性分离;噻吩类化合物;固相萃取
complex modification; silica; selective separation; thiophene compounds; solid-phase extraction
分类号:
TQ536.9


