摘要
为了分离永久性气体及低碳轻化合物,基于MEMS技术,研究制备了一种微型填充式的气相色谱柱。为了增加色谱柱的长度以及深宽比,色谱柱的沟道制备采用了激光刻蚀技术,这种技术可以方便的在玻璃基底上刻蚀出深沟道,这是其他化学腐蚀技术无法比拟的。研制的色谱柱其沟道横截面为1.2mm(深度)×0.6mm(宽度),深宽比为2∶1。实验结果表明,这种微型填充柱,具有较大的样品容量,能很好的实现CO和SO_2的分离。
In order to separate the permanent gases from low carbon hydrocarbons, a gas chromatography(GC) column packed with porapak Q as stationary phase was fabricated based on MEMS technology. In thiswork, the channels on the glass wafer and the silicon wafer were fabricated by a laser etching technology(LET). LET is an effective method to etch a deep channels on the glass wafer as well as on the silicon wafer, sothe depth of the channels can be substantially increased by bonding the channels on the silicon together with thechannels on the glass wafer. The fabricated column with a rectangular cross section of 1.2 mm (depth) X 0.6mm (width) has a large aspect ratio of 2=1, which improves the resolution of the column. The experimentshows that the fabricated column demonstrated largegases CO and SOe from low hydrocarbons.
出处
《强激光与粒子束》
EI
CAS
CSCD
北大核心
2016年第6期118-121,共4页
High Power Laser and Particle Beams
基金
supported by National Natural Science Foundation of China(61176112,60976088)
Beijing science and technology plan project(Z141100003414003)
关键词
微型填充式气相色谱柱
微型色谱系统
分离效率
样品容量
sample capacity and completely separated the permanentmicro packed gas chromatography column
micro gas chromatography system
separationefficiency
sample
