1) differential capacitance characteristic
微分电容特性
2) microwave C V characteristic
微波频段电容-电压特性
3) differential capacitance
微分电容
1.
The polarization, differential capacitance, flattening capability and reaction resistance of BH 51 zinc plating additive and its main components were all studied.
对BH 51氯化钾镀锌添加剂及其主要成分的极化性能、微分电容、整平性、反应电阻等进行了初步研究 ,结果表明 ,氯化钾镀锌添加剂可明显加大阴极极化 ,对镀层具有整平性。
2.
After treated the surface of NiNb2O6 photoelectrode by mechanical polishing +chemical etching + photoetching, the stable values of the differential capacitance of the spacecharge layer are measured,the relationship between flatband potential Vfb and pH value of the electrolyte is obtained,and the value of Vfb is compared with its theoretical calculating value.
对电极进行机械抛光加化学抛光加光抛光处理后,测得了NiNb2O6半导体光电极空间电荷层的微分电容的稳定值,得到了平带电势Vfb与电解液pH值间的关系,并与Vfb的理论计算值进行了比较。
3.
measure the differential capacitance(△Cd)of cassiterite-carbon paste.
2(kJ/mol);又用锡石和炭粉制得含锡石80%、炭粉20%的锡石-炭糊电极,在不同温度下测得该电极吸附辛基羟肟酸前后的微分电容变化量(△Ced),从而作得图,从图中求出该电极吸附辛基羟肟酸的吸附热△H=一40。
4) differential capacity
微分电容
1.
The effect of additive AQ on the electrodepositing process of Cu~(2+) was studied by dynamic potential scanning of rota ting disc electrode, AC impedance and differential capacity, and the electrodepositing mechanism of copper was confirmed.
为了有效地研究添加剂对铜电沉积的影响,选择合成了有机染料酸性镀铜添加剂AQ,用旋转圆盘电极动电位扫描、交流阻抗和微分电容等方法研究其对铜离子电沉积过程的影响,得到了铜的电沉积机理。
5) capacitance characteristic
电容特性
1.
Effects of the activating reagent amount, activation temperature and activation time on the capacitance characteristic of activated carbon were studied.
系统考察了活化剂用量、活化时间和活化温度对活性炭电容特性的影响。
6) capacitance characteristics
电容特性
1.
Electrochemical capacitance characteristics for nano-NiO/C composite electrode;
纳米NiO/C复合电极电化学电容特性的研究(英文)
2.
Certainly, all these changes will be represented in capacitance characteristics.
从植物生理学角度来看,干旱时冬小麦植株体液的理化性质发生改变,含水量减少,体液浓度增大,介质发生变化,必然在电容特性上有所反映,在本研究中,我们分析了水分胁迫下冬小麦叶片电容变化与其生理指标之间的相关性。
补充资料:微分电容
分子式:
CAS号:
性质:电极界面双电层类似于一个电容器,其特点是电容随电极电势而变化。对应于某一电极电势φ,如给予微变化dφ,需对双电层充以微电量dq,二者之比称为该电势下的微分电容 。它可用交流电桥法精确测定。微分电容对电极电势的关系图称为微分电容曲线,是研究电极吸附和电极界面结构的重要实验依据。
CAS号:
性质:电极界面双电层类似于一个电容器,其特点是电容随电极电势而变化。对应于某一电极电势φ,如给予微变化dφ,需对双电层充以微电量dq,二者之比称为该电势下的微分电容 。它可用交流电桥法精确测定。微分电容对电极电势的关系图称为微分电容曲线,是研究电极吸附和电极界面结构的重要实验依据。
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参考词条