ohmic resistance
英
美
欧姆律电阻
英英释义
noun
- a material's opposition to the flow of electric current
双语例句
- Howevers, there are significant barriers to intermediate temperature SOFC: electrolyte ohmic resistance and electrode overpotential, especially cathode overpotential.
但随着工作温度的降低,电解质欧姆电阻和电极极化电阻增大,而阴极的极化电阻增大尤为明显。 - When SiC devices operate at the high temperature and high power, thermodynamically stable ohmic contacts with low specific contact resistance are important, since parasitic resistances generally limit or even jeopardize device operation.
对于器件的欧姆接触,低比接触电阻和高稳定性是决定器件性能的两个重要因素。 - The Research of Low Ohmic Contact Resistance to p-GaN
低p-GaN欧姆接触电阻的研究 - AC impedance measurements demonstrated that the ohmic resistance of the electrolyte as well as the charge transfer resistance of the electrode/ electrolyte interface increases with ethanol content increasing.
交流阻抗测试表明,溶液的欧姆电阻以及电极/电解质界面的电荷转移电阻随溶液中乙醇含量的增加而增大;随着充放电循环的进行,电极/电解质界面的电荷转移电阻增大,电极的活性降低。 - The back ohmic contact resistance of Al-BSF by DC magnetron sputtering is downtrend with the annealing temperature increasing, and less than that by the screen printing process.
溅射工艺制备出的铝背场接触电阻随退火温度升高呈下降趋势且溅射工艺的接触电阻比印刷工艺更小。 - The mechanism of FeS electrode process has been investigated by using linear cyclic voltammetry. The electrode porcess of FeS is accompanied with the formation and dissolution of insoluble FeS and controlled by ohmic resistance.
应用循环伏安法研究了硫化亚铁阴极的电极过程机理,电极反应过程伴随着难溶硫化亚铁的形成与溶解,该电极过程受欧姆电阻控制。 - A Theoretical Study on the Ohmic Resistance R of Zn& Cu Cells with Spherical Electrodes
关于球形电极Zn&Cu电池的Ohmic电阻和Joule热电阻的理论研究 - Study on the Ohmic Contact Resistance of n-type 3C-SiC Grown on Si Substrate
Si上外延的n型3C-SiC欧姆接触研究 - Furthermore, the cyclic reversibility of the electrode reaction improves after doping La and the rare earth La has good effect in inhibiting the oxygen evolution reaction of sample electrode, reducing the electrode reaction of the electrochemical polarization and ohmic resistance, and increasing the discharge voltage.
同时,发现稀土元素物质La掺杂可以明显改善电极反应的充放电循环可逆性,并有效抑制镍电极上的析氧反应和降低电极反应的电化学极化和欧姆阻抗,提高其放电电压。 - When the molar ratio of Ni and Fe was 8 ∶ 2 and 7 ∶ 3, the anodes exhibited the highest electrochemical activity and the lowest ohmic resistance.
当电极中的n(Ni)∶n(Fe)为8∶2和7∶3时,电极具有最高的电化学活性以及最小的欧姆电阻。