Dual Nano-Electrospray and Mixing in the Taylor Cone

IF 0.4 Q4 SPECTROSCOPY

Mass Spectrometry Letters Pub Date : 2016-03-31 DOI:10.5478/MSL.2016.7.1.21

A. Radionova, D. Greenwood, G. Willmott, P. Derrick

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引用次数: 4

Abstract

Abstract : Dual-channel nano-electrospray has recently become an ionization technique of great promise especially in biologi-cal mass spectrometry. This unique approach takes advantage of the mixing processes that occurs during electrospray. Under-standing in more detail the fundamental principles influencing spray formation further study of the origins of the mixingprocesses: (1) in a Taylor cone region, (2) in charged droplets or (3) in both environments. The dual-channel emitters were mad efrom borosilicate theta-shape glass tubes (O.D. 1.2 mm) and had a tip diameters of less than 4µm. Electrical contact wasachived by deposition of a thin film of an appropriate metal onto the surface of the emitter. The experimental investigation ofthe Taylor cone formation in a dual-channel electrospray emitter has been carried out by injection of polystyrene beads(diameter 3µm) at very low concentrations into one of the channels of the non-tapered theta-glass tubes. High-speed cameraexperiments were set up to visualize the mixing processes in Taylor cone regions for dual-channel emitters. Mass spectra fromdual nano-electrospray are presented.Keywords : nano-electrospray, theta-shaped dual channel emitters, Taylor cone, mass spectrometry

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双纳米电喷雾与泰勒锥混合

摘要:近年来，双通道纳米电喷雾技术已成为一种极具发展前景的电离技术，特别是在生物质谱分析领域。这种独特的方法利用了电喷雾过程中发生的混合过程。更详细地了解影响喷雾形成的基本原理，进一步研究混合过程的起源:(1)在泰勒锥区域，(2)在带电液滴中，或(3)在两种环境中。双通道发射器由硼硅theta形玻璃管(外径1.2 mm)制成，尖端直径小于4µm。电接触是通过在发射极表面沉积一层适当的金属薄膜来实现的。采用极低浓度的聚苯乙烯微球(直径3µm)注入非锥形玻化管的一个通道中，对双通道电喷雾发射极中泰勒锥的形成进行了实验研究。建立了高速摄像实验，以可视化双通道发射器泰勒锥区域的混合过程。给出了双纳米电喷雾的质谱。关键词:纳米电喷雾，theta型双通道发射器，泰勒锥，质谱分析

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