利用点击反应对含叠氮基的溶胶-凝胶整体柱进行了表面修饰,制备了 C6-硅胶杂化整体萃取柱。实验以多环芳烃为分析对象,考察了制备和修饰条件对萃取效率的影响,在优化的条件下,新制备的整体柱对萘、菲、芘和苯并[a]芘的萃取富集倍数分别达到95.9、114.2、103.2和57.8。萃取实验的日内和日间精密度(RSD)分别小于5.5%( n=8)和7.3%( n=10)。建立的管内固相微萃取-高效液相色谱检测16种常见多环芳烃方法的检出限( S/N=3)达到0.08~3.72μg/L,定量限( S/N=10)达到0.26~12.40μg/L。土壤中多环芳烃分析的加标回收率为82.4%~110.6%,RSD为2.6%~7.9%( n=3)。与美国国家环境保护局检测土壤中多环芳烃的方法比较,结果一致,准确性高。实验表明,该方法萃取效率高,灵敏可靠,操作简便,重现性好,可满足土壤等样品中痕量多环芳烃检测的要求。
A C6-silica hybrid monolithic column was prepared by click reaction with capillary sil-ica monolith. Firstly,an azide-functionalized silica monolithic column was synthesized via sol-gel reaction with tetramethoxysilane(TMOS)and 3-azidopropyltrimethoxysilane(N3PTMS). Then 1-hexyne was covalently immobilized on the capillary monolith by the“azide-alkyne”click reaction to form C6-silica hybrid monolithic column. As an extraction media of polycyclic aromatic hydro-carbons( PAHs),the conditions for the preparation and modification of the monolith were care-fully investigated according to the extraction efficiency. The enrichment factors for typical PAHs:naphthalene,phenanthrene,pyrene and benzo[a]pyrene finally reached 95. 9,114. 2,103. 2 and 57. 8,respectively. The relative standard deviations( RSDs)for the extraction were lower than 5. 5%( intra-day,n=8)and 7. 3%( inter-day,n=10). Based on the in-tube solid phase microex-traction( in-tube SPME),a new determination method for 16 PAHs was developed with high per-formance liquid chromatography( HPLC). The limits of detection( LODs,S/N=3)were 0. 08-3. 72 μg/L and the limits of quantification( LOQs,S/N=10)were 0. 26-12. 40μg/L for the PAHs. The spiked recoveries for the PAHs in soil samples were between 82. 4% and 110. 6% with the RSDs( n=3)of 2. 6%-7. 9%. Comparison with the method of United States Environmental Protec-tion Agency(U. S. EPA)for the PAHs determination in soil samples,the results showed good accuracy and high consistency. And the high extraction efficiency with high sensitivity and con-venience was also demonstrated in the applications of the new approach.
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