膨胀石墨对重油的吸附量随着膨胀容积的增大而增加,合适的电流密度、电解液浓度以及反应时间是制备高膨胀容积膨胀石墨的关键。
Adsorption quantity increases with the expanded volume. Appropriate current density, electrolyte concentration and reaction time are the keys to obtain high-expanded volume.
采用合金电极,可以有效克服不溶性金属醇盐在阳极的吸附问题,并同时合成几种金属醇盐,从而提高反应的电流效率。
Using alloy as anode may be recommended as a technique for the synthesis of alkoxides, this process can run in sufficiently high current efficiency and high reaction activity.
通过测量电极溶液界面的电容值,发现电流效率和季铵盐在电极表面的吸附相关。
It could be concluded that the reaction current efficiency was related with the surface adsorption of quaternary ammonium salt by measuring the differential capacitance at the solution in...
以原代培养的大鼠海马神经元为标本,运用膜片钳技术的细胞吸附式方法记录NMDA通道的单通道电流。
Methods Cell-attached mode of patch clamp technique were employed to record the single channel current of NMDA receptor with the primary-cultured hippocampal neurons from rats as samples.
结果表明,大的比表面积能吸附更多染料,对提高电池的电流起了关键性作用。
Results showed that the larger surface area could absorb more dye which was the key factor to improve the current.
测量了在多孔硅形成初期阶段的电流i -电压V曲线,计算了硅表面原子吸附不同元素时电荷的转移量。
The I-V curves of the initial stage of porous silicon formation have been measured, and the amount of charge transfer for silicon atoms adsorbed different elements has been calculated.
测量了在多孔硅形成初期阶段的电流i -电压V曲线,计算了硅表面原子吸附不同元素时电荷的转移量。
The I-V curves of the initial stage of porous silicon formation have been measured, and the amount of charge transfer for silicon atoms adsorbed different elements has been calculated.
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