| 1. | Manufacture of lactose - glucose bi - function enzymic electrodes based on nuclear pore film
葡萄糖双功能酶电极的研制 |
| 2. | Amperometric nitrate reductase biosensors based on organic - inorganic hybrid material
无机杂化材料的硝酸还原酶电极的研究 |
| 3. | The enzyme electrode exhibited good stability , which can be used for the determination of histamine
酶电极具有较好的稳定性,可用来测定组胺。 |
| 4. | In addition , the electrochemical characteristics of the enzyme electrode were studied by cyclic voltammetry an
此外,酶电极的电化学性质通过循环伏安和交流阻抗进行了表征。 |
| 5. | In this paper , an enzymatic electrode biosensor was prepared by immobilizing acetylcholinesterase with the crosslinking agent named glutaraldehyde
本文以戊二醛为交联剂,制备了一种基于乙酰胆碱酯酶的酶电极型生物传感器。 |
| 6. | Progress of applications of ion - selective electrodes in food analysis in recent years is reviewed with the applications of enzyme electrodes described also
摘要综述了近年来离子选择性电极在食品分析中的应用,对酶电极的应用也作了介绍。 |
| 7. | Part one studies a new glucose biosensor with naphthol green b as electron mediator . the biosensor is made of a platinum electrode modified by glucucose oxidase in polyvinyl butyral membrane
用聚乙烯醇缩丁醛为固定葡萄糖氧化酶( god )的载体,将god附在铂丝电极上制得葡萄糖酶电极。 |
| 8. | Modifying biosensor with multi - walled carbon nanotube ( mwnt ) could raise the sensitivity and enlarge sensitive range of the sensor . mwnt were thought to enhance this response in the two sides
纳米碳管有很大的比表面积,具有相当好的生物催化特性。实验结果表明纳米碳管修饰生物酶传感器能大幅度提高生物酶电极的敏感性和敏感范围。 |
| 9. | Second , carbon nanotube ( cnt ) was used in the fabrication of xanthine oxidase ( xod ) biosensor . xod / cnt / gc electrode was fabricated . the influences of cnt , ph and scan rate to the electrode were discussed
系统地研究了ph 、扫速对hrp酶电极电化学性能的影响,优化了电极的制备条件,实现了hrp酶电极对h2o2的响应,并考察了电极的稳定性。 |
| 10. | Gold nanoparticles were chemically adsorbed on the pvc - nh2 matrix membrane ph electrode surface containing n , n - didecylaminomethylbenzene ( damab ) as a neutral carrier and urease was then immobilized on the gold nanoparticles
首先将纳米金组装在含有中性载体damab的pvc - nh2膜表面,然后通过化学吸附作用将脲酶固定在纳米金上制得脲酶电极并用于检测汞离子。 |
