The stability and repeatability of coated capillary column were tested.
考察了涂层柱的稳定性和重现性。
The neutral coated capillary and 4% linear polyacrylamide gel buffer were used, and the wave length of ultraviolet detector was 254 nm.
电泳采用中性毛细管涂层柱和4%线性聚丙烯酰胺凝胶电泳缓冲液,紫外检测仪检测。
The resulting high mass fractions were analysed by capillary electrophoresis (ce) on a polyacrylamide coated capillary with laser induced fluorescence (LIF) detection.
所得到的高分子部分采用毛细管电泳(CE)分离和激光诱导荧光(LIF)检测技术进行分析。
The results show that high-efficient apolar and weak polar glass capillary columns can be coated only if this modified surface is treated with deactivation.
研究表明,只要对这种改性表面进行钝化处理,即可涂渍出高效弱极性和非极性毛细管柱。
The coated column prepared by this method was good enough to repress the electroosmotic flow and the adsorption of the proteins on the capillary wall.
通过物理吸附方法将其涂布在熔融石英毛细管内表面,测定了涂层柱的电渗流及其对碱性蛋白质的分离能力。
The coated column prepared by this method was good enough to repress the electroosmotic flow and the adsorption of the proteins on the capillary wall.
通过物理吸附方法将其涂布在熔融石英毛细管内表面,测定了涂层柱的电渗流及其对碱性蛋白质的分离能力。
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