Zargar Tahereh, Jafari Mohammad T, Khayamian Taghi
Department of Chemistry, Isfahan University of Technology, Isfahan, Iran.
J Mass Spectrom. 2018 Nov;53(11):1135-1142. doi: 10.1002/jms.4289.
In this work, a porous graphite sheet is introduced as the substrate in a spray ionization source for ion mobility spectrometry (PGSI-IMS) for the first time. This ionization source has some important advantages in comparison with the hollow needle, which is conventionally used in electrospray ionization. In order to prepare the hydrophilic surface needed to load samples on a graphite substrate, the graphite sheet was treated with hot sulfuric acid solution for 2 hours. Some parameters affecting the ionization efficiency were studied, and the optimized conditions were found to be 3.5-kV graphite voltage, 24-μL methanol flow rate, 500 mL min the gas flow rate, and graphite sheet with a 60° tip angle and 3-mm distance from the counter electrode. Finally, analyses of some test compounds (imipramine, diclofenac, codeine, morphine, and ethion) were conducted to evaluate the capability of the new ionization source in the positive and negative modes. The satisfactory results proved the capability of the graphite sheet spray ionization, to be conveniently used for routine analysis of chemical compounds by IMS.
在本工作中,首次引入了一种多孔石墨片作为离子迁移谱喷雾电离源(PGSI-IMS)的基底。与传统用于电喷雾电离的空心针相比,这种电离源具有一些重要优势。为了在石墨基底上制备负载样品所需的亲水性表面,将石墨片用热硫酸溶液处理2小时。研究了一些影响电离效率的参数,发现优化条件为3.5 kV的石墨电压、24 μL的甲醇流速、500 mL/min的气体流速以及尖端角度为60°且距对电极距离为3 mm的石墨片。最后,对一些测试化合物(丙咪嗪、双氯芬酸、可待因、吗啡和乙硫磷)进行了分析,以评估新电离源在正模式和负模式下的性能。令人满意的结果证明了石墨片喷雾电离能够方便地用于通过离子迁移谱对化合物进行常规分析。