Separation Performance of Capillary Gas Chromatography Based on Monohydroxycucurbit[7]Uril Incorporated Into Sol–Gels as the Stationary Phase

Separation Performance of Capillary Gas Chromatography Based on Monohydroxycucurbit[7]Uril Incorporated Into Sol–Gels as the Stationary Phase

A novel monohydroxycucurbit[7]uril-based stationary phase for capillary gas chromatography (GC) has been produced. For this, a capillary column coating was made using a sol–gel technique, incorporating synthesized monohydroxycucurbit[7]uril [(OH)Q[7]] and hydroxy-terminated poly(dimethylsiloxane) (O...

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Main Authors: Jing He, Jingfeng Ran, Jianmei Yao, Lingxue Zhang, Shasha Wang, Yuan Wang, Nan Dong
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-02-01
Series:Frontiers in Chemistry
Subjects:
monohydroxycucurbit[7]uril
stationary phase
sol–gel coating
capillary gas chromatography
separation performance
Online Access:https://www.frontiersin.org/article/10.3389/fchem.2020.00031/full
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spelling doaj-0a2fa7ea8f5f41659716fd52aabb85652020-11-25T02:40:43ZengFrontiers Media S.A.Frontiers in Chemistry2296-26462020-02-01810.3389/fchem.2020.00031504914Separation Performance of Capillary Gas Chromatography Based on Monohydroxycucurbit[7]Uril Incorporated Into Sol–Gels as the Stationary PhaseJing He0Jingfeng Ran1Jianmei Yao2Lingxue Zhang3Shasha Wang4Yuan Wang5Nan Dong6Nan Dong7School of Chemistry and Chemical Engineering, Guizhou University, Guiyang, ChinaSchool of Chemistry and Chemical Engineering, Guizhou University, Guiyang, ChinaSchool of Chemistry and Chemical Engineering, Guizhou University, Guiyang, ChinaSchool of Chemistry and Chemical Engineering, Guizhou University, Guiyang, ChinaSchool of Chemistry and Chemical Engineering, Guizhou University, Guiyang, ChinaResource and Environmental Engineering College, Guizhou University, Guiyang, ChinaSchool of Chemistry and Chemical Engineering, Guizhou University, Guiyang, ChinaKey Laboratory of Macrocyclic and Supramolecular Chemistry of Guizhou Province, Guiyang, ChinaA novel monohydroxycucurbit[7]uril-based stationary phase for capillary gas chromatography (GC) has been produced. For this, a capillary column coating was made using a sol–gel technique, incorporating synthesized monohydroxycucurbit[7]uril [(OH)Q[7]] and hydroxy-terminated poly(dimethylsiloxane) (OH-PDMS) into the sol–gel network through hydrolysis and polycondensation and chemical sol–gel grafting to the inner wall of a fused-silica tube. The preparation method may produce a coating with greater integrity, which gives the prepared column a higher separation efficiency and better selectivity toward analytes than a reported stationary phase based on neat cucurbit[n]urils (Q[n]s). The prepared (OH)Q[7]/PDMS column had 3,225 theoretical plates per meter determined using naphthalene at 120°C and exhibited a weakly polar nature. The (OH)Q[7]/PDMS column has high resolution over a broad spectrum of analytes with symmetrical peak shapes and exhibited better separation performance than commercial capillary columns and reported columns based on neat Q[n]s that failed to resolve some critical analytes. Moreover, the column also showed good thermal stability up to 300°C and separation repeatability with relative standard deviation values in the range of 0.01–0.11% for intraday, 0.11–0.32% for interday and 0.29–0.58% for column-to-column. In addition, the energy effect on the retention of analytes on the (OH)Q[7]/PDMS stationary phase was investigated. The results indicated that retention on the column was determined mainly by the enthalpy change. As demonstrated, the proposed coating method can address some disadvantages that exist with the reported Q[n]s columns and combine the full advantages of (OH)Q[7] with the sol–gel coating method while achieving outstanding GC separation performance.https://www.frontiersin.org/article/10.3389/fchem.2020.00031/fullmonohydroxycucurbit[7]urilstationary phasesol–gel coatingcapillary gas chromatographyseparation performance
collection DOAJ
language English
format Article
sources DOAJ
author Jing He
Jingfeng Ran
Jianmei Yao
Lingxue Zhang
Shasha Wang
Yuan Wang
Nan Dong
Nan Dong
spellingShingle Jing He
Jingfeng Ran
Jianmei Yao
Lingxue Zhang
Shasha Wang
Yuan Wang
Nan Dong
Nan Dong
Separation Performance of Capillary Gas Chromatography Based on Monohydroxycucurbit[7]Uril Incorporated Into Sol–Gels as the Stationary Phase
Frontiers in Chemistry
monohydroxycucurbit[7]uril
stationary phase
sol–gel coating
capillary gas chromatography
separation performance
author_facet Jing He
Jingfeng Ran
Jianmei Yao
Lingxue Zhang
Shasha Wang
Yuan Wang
Nan Dong
Nan Dong
author_sort Jing He
title Separation Performance of Capillary Gas Chromatography Based on Monohydroxycucurbit[7]Uril Incorporated Into Sol–Gels as the Stationary Phase
title_short Separation Performance of Capillary Gas Chromatography Based on Monohydroxycucurbit[7]Uril Incorporated Into Sol–Gels as the Stationary Phase
title_full Separation Performance of Capillary Gas Chromatography Based on Monohydroxycucurbit[7]Uril Incorporated Into Sol–Gels as the Stationary Phase
title_fullStr Separation Performance of Capillary Gas Chromatography Based on Monohydroxycucurbit[7]Uril Incorporated Into Sol–Gels as the Stationary Phase
title_full_unstemmed Separation Performance of Capillary Gas Chromatography Based on Monohydroxycucurbit[7]Uril Incorporated Into Sol–Gels as the Stationary Phase
title_sort separation performance of capillary gas chromatography based on monohydroxycucurbit[7]uril incorporated into sol–gels as the stationary phase
publisher Frontiers Media S.A.
series Frontiers in Chemistry
issn 2296-2646
publishDate 2020-02-01
description A novel monohydroxycucurbit[7]uril-based stationary phase for capillary gas chromatography (GC) has been produced. For this, a capillary column coating was made using a sol–gel technique, incorporating synthesized monohydroxycucurbit[7]uril [(OH)Q[7]] and hydroxy-terminated poly(dimethylsiloxane) (OH-PDMS) into the sol–gel network through hydrolysis and polycondensation and chemical sol–gel grafting to the inner wall of a fused-silica tube. The preparation method may produce a coating with greater integrity, which gives the prepared column a higher separation efficiency and better selectivity toward analytes than a reported stationary phase based on neat cucurbit[n]urils (Q[n]s). The prepared (OH)Q[7]/PDMS column had 3,225 theoretical plates per meter determined using naphthalene at 120°C and exhibited a weakly polar nature. The (OH)Q[7]/PDMS column has high resolution over a broad spectrum of analytes with symmetrical peak shapes and exhibited better separation performance than commercial capillary columns and reported columns based on neat Q[n]s that failed to resolve some critical analytes. Moreover, the column also showed good thermal stability up to 300°C and separation repeatability with relative standard deviation values in the range of 0.01–0.11% for intraday, 0.11–0.32% for interday and 0.29–0.58% for column-to-column. In addition, the energy effect on the retention of analytes on the (OH)Q[7]/PDMS stationary phase was investigated. The results indicated that retention on the column was determined mainly by the enthalpy change. As demonstrated, the proposed coating method can address some disadvantages that exist with the reported Q[n]s columns and combine the full advantages of (OH)Q[7] with the sol–gel coating method while achieving outstanding GC separation performance.
topic monohydroxycucurbit[7]uril
stationary phase
sol–gel coating
capillary gas chromatography
separation performance
url https://www.frontiersin.org/article/10.3389/fchem.2020.00031/full
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