Your search keyword '"Lu, Xinqiong"' showing total 2 results

1. Comparison of Membrane Inlet and Capillary Introduction Miniature Mass Spectrometry for Liquid Analysis.

Author

Shi, Wenyan, Lu, Xinqiong, Zhang, Jinbo, Zhao, Jianhong, Yang, Lili, Yu, Quan, and Wang, Xiaohao

Subjects

*MASS analysis (Spectrometry), *MASS spectrometers, *MASS spectrometry, *VOLATILE organic compounds, *INLETS, *VACUUM chambers

Abstract

Membrane inlet mass spectrometry (MIMS) is commonly used for detecting the components in liquid samples. When a liquid sample flows through a membrane, certain analytes will permeate into the vacuum chamber of a mass spectrometer from the solution. The properties of the membrane directly determine the substances that can be detected by MIMS. A capillary introduction (CI) method we previously proposed can also be used to analyze gas and volatile organic compounds (VOCs) dissolved in liquids. When CI analysis is carried out, the sample is drawn into the mass spectrometer with no species discrimination. The performance of these two injection methods was compared in this study, and similar response time and limit of detection (LOD) can be acquired. Specifically, MIMS can provide better detection sensitivity for most inorganic gases and volatile organic compounds. In contrast, capillary introduction shows wider compatibility on analyte types and quantitative range, and it requires less sample consumption. As the two injection methods have comparable characteristics and can be coupled with a miniature mass spectrometer, factors such as cost, pollution, device size, and sample consumption should be comprehensively considered when choosing a satisfactory injection method in practical applications. [ABSTRACT FROM AUTHOR]

Published

2019

2. Development of membrane inlet photoionization ion trap mass spectrometer for trace VOCs analysis.

Author

Shi, Wenyan, Huo, Xinming, Tian, Yuan, Lu, Xinqiong, Yang, Lili, Zhou, Qian, Wang, Xiaohao, and Yu, Quan

Subjects

*MASS spectrometers, *ION traps, *TRACE analysis, *PHOTOIONIZATION, *CARRIER gas, *INLETS

Abstract

With the development of instrumental miniaturization, the portable mass spectrometer is becoming a new tool for on-site rapid analysis of environmental samples. Membrane inlet (MI) and photoionization (PI) are two commonly used sampling and ionization techniques, respectively, as they both exhibit detection selectivity for volatile organic compounds (VOCs). In this paper, a membrane inlet photoionization ion trap mass spectrometer was developed for the direct analysis of VOCs in gaseous samples. With the new structure and timing design, various operation modes were proposed and tested. In particular, the use of pulse carrier gas can integrate the appropriate pressure conditions required by each module, thus improving the efficiency of analyte transport, ionization, and mass analysis. The detection limit of sub-ppb was obtained, and the response time can be greatly reduced by increasing the sample flow rate. Furthermore, the capability of selective enrichment for organic analytes was also realized by using a special accumulation mode with a modified sequence, which is easy to operate because no additional devices are needed. [Display omitted] • A miniature membrane inlet photoionization ion trap mass spectrometer was developed for VOCs analysis. • The pulse carrier gas was used to facilitate analyte transfer, ionization, and mass analysis. • The detection limit of sub-ppb level can be obtained for some volatile compounds. • Selective enrichment of organic analytes can be realized without additional devices. [ABSTRACT FROM AUTHOR]

Published

2021