Your search keyword '"Ba, Mengyi"' showing total 7 results

1. Ester-functionalized pillar[6]arene as the gas chromatographic stationary phase with high-resolution performance towards the challenging isomers of xylenes, diethylbenzenes, and ethyltoluenes

Author

Song, Yanli, Li, Wen, Ba, Mengyi, Zhang, Yuanyuan, Liu, Haixin, Xu, Xiang, Su, Haoyu, Cai, Zhiqiang, Liu, Xianming, and Sun, Tao

Published

2024

2. Two different rims functionalized pillar[5]arene stationary phase for capillary gas chromatography.

Author

Zhang, Yuanyuan, Ba, Mengyi, Li, Wen, Song, Yanli, Xu, Xiang, Liu, Haixin, Zhao, Wenxuan, Sun, Tao, and Cai, Zhiqiang

Subjects

*STATIONARY phase (Chromatography), *GAS chromatography, *ISOMERS, *CAPILLARIES, *ESTERS

Abstract

Herein, we synthesized and used a novel pillar[5]arene with two functionalizable rims (AP5A-C10-OAc) as stationary phase in gas chromatography (GC). The AP5A-C10-OAc column (0.25 mm, i.d.) showed a high column efficiency of 4107 plates/m and medium polarity. The AP5A-C10-OAc stationary phase possesses unique amphiphilic structure, including a π-electron rich cavity and two functionalized arms composed of five nonpolar alkyl chains and five polar ester chains, and showed good separation performance for diverse types of analytes and isomers (apolar/polar, aliphatic/aromatic). Particularly, the AP5A-C10-OAc phase showed high selectivity for the challenging isomers of chloronitrobenzenes, bromonitrobenzenes, benzenediols, and iodoanilines with distinct advantages if compared with the commercial polysiloxane column. [ABSTRACT FROM AUTHOR]

Published

2024

3. Hydroxyl-functionalized pillar[5]arene with high separation performance for gas chromatography.

Author

Ba, Mengyi, Li, Wen, Song, Yanli, Zhang, Yuanyuan, Xu, Xiang, Liu, Haixin, Cai, Zhiqiang, Hu, Shaoqiang, Liu, Xianming, and Sun, Tao

Subjects

*SEPARATION of gases, *CAPILLARY columns, *CHLOROANILINE, *GAS chromatography, *ISOMERS, *DIMETHYLANILINE

Abstract

Here we report the first example of employing hydroxyl-functionalized pillar[5]arene (P5A-C10-OH) as stationary phase for capillary gas chromatographic (GC) separations. The statically coated P5A-C10-OH capillary column possessed moderate polarity and column efficiency of 3233 plates per m determined by n-dodecane. As a result, the P5A-C10-OH column exhibited high-resolution capability for the mixture of 17 analytes from apolar to polar nature. Importantly, it exhibited advantageous performance for high resolution of the challenging isomers of bromonitrobenzene, chloroaniline, bromoaniline, iodoaniline and dimethylaniline with good peak shapes over the P5A-C10 and commercial HP-35 columns. In addition, eight cis-/trans-isomers with diverse types were baseline separated on the P5A-C10-OH column. And the application of detecting isomeric impurities in real samples gave strong evidence of its potential and feasibility for the viable GC analysis. [ABSTRACT FROM AUTHOR]

Published

2024

4. Benzimidazolium ionic liquid functionalized star-polycaprolactone stationary phase for capillary gas chromatography.

Author

Chen, Ruonan, Yang, Hongbing, Huang, Qiuchen, Ba, Mengyi, Li, Wen, Song, Yanli, Cai, Zhiqiang, Sun, Tao, Feng, Qiaoqiao, and Li, Shuai

Subjects

GAS chromatography, IONIC liquids, CAPILLARY columns, STAR-branched polymers, COLUMNS, CAPILLARY liquid chromatography, SEPARATION (Technology)

Abstract

In this work, an innovative ionic liquid functionalized star-shaped polymer is synthesized by coupling star-polycaprolactone with benzimidazolium (star-PCL-Bim), and statically coated into a capillary column for gas chromatographic (GC) separations. The fabricated star-PCL-Bim capillary column with moderate-polar nature reveals a high column efficiency of 3598 plates/m for n-dodecane at 120 °C, and advantageous distinguishing ability (R > 1.5) for 9 aromatic isomer mixtures and 12 cis-/trans-isomers. Its excellent resolving capacity can be credited to the architecture of star-PCL-Bim, the PCL arms, and π-electron-rich benzimidazolium cations, and it results in a quite different retention behavior of star-PCL-Bim from that of star-PCL and commercial HP-35 columns, with "dual-nature" selectivity in separating a mixture including 29 compounds. These favorable chromatographic characteristics demonstrate the great application potential of this material in GC, and provide a prospective strategy to obtain high-performance stationary phases. [ABSTRACT FROM AUTHOR]

Published

2024

5. Multipurpose new gas chromatography column based on pillararenes functionalized with imidazolium ionic liquids.

Author

Sun, Tao, Ba, Mengyi, Song, Yanli, Li, Wen, Zhang, YuanYuan, Cai, Zhiqiang, Hu, Shaoqiang, Liu, Xianming, Nardiello, Donatella, and Quinto, Maurizio

Subjects

*STATIONARY phase (Chromatography), *COLUMN chromatography, *IONIC liquids, *AROMATIC aldehydes, *LIQUID chromatography, *GAS chromatography

Abstract

Gas chromatography is worldwide recognized as one of the most important analytical techniques, due to its high versatility and reliability. The heart of a gas chromatograph is the column, that allows analyte peak separations and, consequently, accurate qualitative and qualitative analyses. New and more efficient columns are always requested to satisfy new and challenging analytical needs. In this work, imidazolium ionic liquids functionalized pillar [5] arenes have been used for the first time as gas chromatographic stationary phases, considering their highly symmetric pillar-shaped architecture with cavities rich in π -electrons. Four imidazolium ionic liquids functionalized pillar [5] arenes have been tested as stationary phases with numerous analytes and isomers. In particular, one of these showed superior performances if compared to commercial columns, enabling challenging isomeric separations of halogenated benzenes, aromatic aldehydes, and aromatic anilines. To our knowledge, this is the first report on the use of the ionic liquid P[ n ]A as a stationary phase in chromatography, either in GC or liquid chromatography (LC) separations. This work demonstrates the promising potential of ionic liquid P[ n ]A stationary phases for chromatographic separations. [Display omitted] • Novel ionic liquid P[ n ]A stationary phases. • High resolving performance towards the challenging isomer. • Advantageous performance of the γC 10 -C 8 column over the commercial columns. [ABSTRACT FROM AUTHOR]

Published

2024

6. High-resolution performance of pillar[6]arene functionalized with imidazolium ionic liquids for gas chromatography.

Author

Sun, Tao, Song, Yanli, Zhang, YuanYuan, Ba, Mengyi, Li, Wen, Cai, Zhiqiang, Hu, Shaoqiang, Liu, Xianming, and Zhang, Shusheng

Subjects

*STATIONARY phase (Chromatography), *LIQUID chromatography, *LIQUEFIED gases, *GAS chromatography, *RF values (Chromatography), *INVESTIGATION reports

Abstract

Pillar[ n ]arenes (P[ n ]A, n = 5–10) have attracted much attention because of their highly symmetric pillar-shaped architecture with π -electron rich cavity. Nevertheless, the use of ionic liquid functionalized P[ n ]A in chromatography has not been reported up to data. This work reports the investigation of the imidazolium ionic liquids functionalized pillar[6]arene (P6A-C10-IM-C8[NTf 2 ]) as the stationary phase for gas chromatography (GC). The statically coated P6A-C10-IM-C8[NTf 2 ] column (0.25 mm i.d.) showed moderate polarity and high column efficiency of 4733 plates/m determined by n -dodecane at 120 °C (k = 2.29). Owing to its unique amphiphilic conformation, the P6A-C10-IM-C8[NTf 2 ] showed good column inertness and resolving capability for a wide range of analytes and isomers. Particularly, the P6A-C10-IM-C8[NTf 2 ] column exhibited distinctly advantageous performance for the challenging isomers of halogenated benzenes, benzaldehydes, phenols and anilines over the common commercial columns, namely 5% phenyl methyl polysiloxane (HP-5) and 35% phenyl methyl polysiloxane (HP-35). In addition, it exhibited good column repeatability and reproducibility with RSD values on the retention times less than 0.05% for run-to-run, 0.38% for day-to-day and 2.94% for column-to-column, respectively. This work demonstrates the promising future of ionic liquid P[ n ]A stationary phases for chromatographic separations. [Display omitted] • Novel ionic liquid pillar [6]arene stationary phase. • High separation performance and inertness towards the analytes of wide natures (apolar/polar, aromatic/aliphatic). • Advantageous performance of the P6A-C10-IM-C8[NTf 2 ] column over the commercial polysiloxane columns. [ABSTRACT FROM AUTHOR]

Published

2024

7. Efficient gas chromatographic separation of xylene and other aromatic isomers by using pillar[6]arene-based stationary phase.

Author

Sun, Tao, Chen, Ruonan, Huang, Qiuchen, Ba, Mengyi, Cai, Zhiqiang, Chen, Haipeng, Qi, Yueheng, Chen, Hong, Liu, Xianming, Nardiello, Donatella, and Quinto, Maurizio

Subjects

*SEPARATION of gases, *XYLENE, *CHIRAL stationary phases, *BOILING-points, *QUANTUM chemistry, *MOLECULAR size, *ISOMERS

Abstract

The separation of aromatic isomers, in particular xylene isomers, represents a big issue in chemical and petroleum industries, owing to their similar molecular sizes and boiling points. In this work, the investigation ofpillar[6]arene derivative modified by long alkyl chains (P6A-C10) as a stationary phase for high-resolution gas chromatographic (GC) separations of xylene isomers is presented. Pillar[n]arenes are a new class of macrocyclic hosts that can accommodate specific guests due to their highly symmetrical and rigid pillar architectures with π -electron rich cavities. The P6A-C10 column showed high-resolution performance towards xylene isomers, with peculiar advantages if compared with the commercial HP-5, HP-35, DB-17, and PEG-20Mcolumns.A quantum chemistry calculation has been performed, showing a difference in non-covalent interactions with the P6A-C10 pillar framework, which leads to specific selectivity for xylene isomers.Furthermore, the P6A-C10 column exhibited good repeatability. [Display omitted] • Novel pillararene-based stationary phase. • High resolving performance towards xylene and other aromatic isomers. • Advantageous performance of the P6A-C10 column over the commercial HP-5, HP-35, DB-17, and PEG-20 M columns. • Quantum chemistry calculation was utilized to assess the separation mechanism. [ABSTRACT FROM AUTHOR]

Published

2023