工作电位 meaning in Chinese
operating potential
Examples
- In ammonium sulfate solution , the ac electrode could also perform better capacitance , which potential range get to 1 . 5v . that made the energy density and power density of the capacitor inhanced greatly . 3
活性炭电极在( nh _ 4 ) _ 2so _ 4中性电解液,也能够表现出较好的电容性质,工作电位范围可达1 . 5v ,这样可以大大提高电容器的能量密度和功率密度。 - With the aid of the hydroquinone in the solution , the sensor displayed excellent electrocatalytical response to the reduction of h2o2 compared with enzyme - polymer modified sensor , the immobilization of enzyme was simple and the sensor exhibited a better stability and reproducibility
在工作电位- 100mv条件下,能快速催化还原过氧化氢。在传感器制作中,酶固定方法简单易行,制得的电极可多次重复使用,具有较好的使用价值。 - In addition , the biosensor could be used for the detection of benzoic acid . the choline oxidase electrode based on polyaniline / polyacrylonitrile composite film showed sensitive and stable bioelectrochemical response to choline , which was influenced by ph , working potential and temperature
研究发现,基于聚苯胺/聚丙烯腈复合膜的胆碱氧化酶电极对胆碱具有灵敏和稳定的生物电化学响应,被测溶液的ph值、工作电位、使用温度等对酶电极的响应有一定的影响。 - It was found that the composite film containing 28 . 6 % polyisoprene suited well for biosensor construction . the apparent michaelis constanst and activation energy for the immobilized glucose oxidase are 11 . 9 mm and 41 . 1 kj - mol " 1 , respectively . the biosensor response was influenced by ph value of determined solution , applied potential and operational temperature
研究发现,复合膜中聚异戊二烯含量28 . 6为传感器制作的最佳条件;固定化葡萄糖氧化酶的表观米氏常数为11 . 9mm ,酶催化反应的表观活化能为41 . 1kj ? mol ~ ( - 1 ) ;被测溶液的ph值、工作电位、使用温度等对葡萄糖传感器的响应有一定的影响。 - But the active silver substrate of sers used in the study of the cathode material cannot be used in positive electrodes . in the lithium ion battery the working voltage of positive electrode may reach and exceed 4 . 0v , however the silver will be oxidated at 3 . 6v ( vs li / li + ) , and in the first charge process , the nanometer silver can be dissolved into the electrolyte and no longer has sers active
但银衬底却不能应用于正极材料表面sei膜的研究当中,因为锂离子电池中正极的工作电位可达4 . 0v以上,而银在3 . 6v ( vsli / li + )附近就开始发生氧化反应,在第一次充电过程中,正极材料表面包覆的银颗粒就会因电化学反应溶入电解液中,不再具有表面增强的效果。