| 1. | A preparation method for total protein of nosema bombycis suitable for 2 - d page 一种适用于双向电泳的家蚕微孢子虫总蛋白的制备方法 |
| 2. | A novel oxidase electrode for determination of glucose goupled with capillary electrophoresis 新型葡萄糖氧化酶电极与毛细管电泳的联用 |
| 3. | Preliminary study on common antigen of tyrophagus putrescentiae and dermatophagoides farine 两种粉螨的酯酶同工酶和相关蛋白质电泳的研究 |
| 4. | Detected samples and ladder were added synchronously during page . compare the bands to classify and denominated them . 2 各y ? str位点检测到的等位基因与该位点的等位基因梯阶( ladder )同步电泳的结果参见图2 ? 1 2 ? 6 。 |
| 5. | The capillary electrophoresis principle and the recent developments of mce chip are reviewed . on the base of it , a novel design of mce chip system is presented . 2 阐述了毛细管电泳的原理,以及微通道电泳芯片系统的原理和研究现状,在此基础上,提出了自己的研究思路; 2 |
| 6. | The utilization of the procedural control makes the experimental process convenient and exact , and therefore improves the separation efficiency and detection sensitivity 实验采用自控接口模板对进样及分离电压进行了系统的程序化控制,从而准确地控制整个电泳、检测流程,提高了微芯片电泳的分离效率和检测灵敏度。 |
| 7. | The relative theory of capillary electrophoresis has been studied . the low voltage separation models with moving grade electrical field and high voltage separation model have been discussed 研究了毛细管电泳的相关基础理论,从理论上较深入地研究分析了传统的毛细管高电压分离模式与本文所采用的低电压运动梯度场分离模式。 |
| 8. | We make out the cnt thin film by the coating method , and then we test the thin film field emission properties 4 . we make the sample that is get by the step 3 as the cathode . then we get the composed materials by electrophoretic method 4 .以3得到的样品为阴极,仍然采用电泳的办法将沉积到碳纳米管薄膜上,成功得到了碳纳米管与金刚石超微粉的合成材料,并测试了其场发射特性。 |
| 9. | Based on the knowledge of capillary electrophoresis technology , the separation and control models of low voltage electrophoresis system using moving grade electrical field have been presented . at the same time , the developments of electrophoresis chip and control circuit have been studied , which will lay theory and technique foundation for the further study on the low voltage electrophoresis chip 以期在了解毛细管电泳的相关理论的基础上,建立电泳芯片的低电压运动梯度场的分离和控制模型,对电泳芯片的制作和低电压控制电路的研发进行前期探索,为研制一种微型化、集成化的低电压电泳芯片奠定一定的理论和技术基础。 |
| 10. | We successfully make the nanosized diamond particles calculated on the cathode and get the composed materials by electrophoretic method . comparing to the pecvd method by which people make the cnt and nanocrystal diamond grow currently on the same substrate , it ’ s more simple , economic and easy to control . the main jobs are followed : 1 实验中采用电泳的办法,将金刚石超微粉沉积到阴极基片上,从而制备出合成材料,此种办法与通过pecvd方法实现基片上碳纳米管与金刚石超微粉的合成材料的生长相比,更加经济,简单与实用,并且更加容易控制。 |