电化学活性 meaning in Chinese
electrochemical activity
Examples
- However , previously reported li / s batteries encounter many serious problems , including very low active material utilization and poor rechargeablity , which inhibit the commercialization of rechargeable li / s batteries
本论文设计并制备了纳米级颗粒的导电聚合物硫以及活性炭硫两类复合材料作为锂电池正极用电化学活性物质。 - The development and application of new electrochemical technology relies on the development of new technologies and new materials , especially new electrode materials with high electrochemical activity and cheap prices
最后指出,电化学新技术的开发和应用,都依赖于新工艺、新材料,特别是高电化学活性和价格便宜的新电极材料的开发。 - The sem and electrochemical studies showed that the composite film exhibited more compact structure and lower electrochemical activity than polyaniline film . the glucose biosensor based on the polyaniline / polyisoprene composite film showed high selectivity
扫描电镜和电化学研究表明,该复合膜与聚苯胺膜相比,具有较紧密的结构和较低的电化学活性。 - Chapter 4 : nugh determinations of cyclic voltarnmetry and diff pulse voltammetry their electrochemical properties are studied . we find that each of them has nice electrochemical properties and reversible redox properties . whereaftef , we obtain some beneficiai conclusions via comparison and analysis
第四章对它们的电化学活性进行了研究,通过循环伏安法,差分脉冲伏安法测试,发现该系列化合物都具有电化学活性,且具有良好的氧化还原可逆性。 - From the results of the experiment , we can see that simultaneity electrochemical polymerization of 3 - pyrrole - dna and 3 - [ 2 , 5 , 8 , 11 - tetraoxa - tridecyl - 13 - ol ] - pyrrole was a new promising method for preparing dna chips because this method had such following advantages : first , the immobilization procedure can be controlled easily . second , with the progress of microelectronics , the miniaturization and integraterization of polypyrrole - based dna chip can be achieved in the future ; third , using an electrochemical active compound like the mb , the hybridization detection will be performed more easily
从以上实验结果可看出,电化学聚吡咯方法制备dna芯片和传统的方法相比具有下列优越性:首先,固定可通过电化学信号控制和完成,操作简单易行;其次,微电子技术和电化学的进一步结合,可以提高芯片的集成程度,将dna芯片进一步向产业化方向推进;第三,通过应用电化学活性物质,有望建立无标记的dna芯片检测技术,有利于减少环境污染、提高灵敏度、降低成本。