研究证明,电化学电容所具有的大容量是由于电极表面的双电层电容和氧化还原反应导致的“准电容”的共同作用而引起的。
The large capacitance exhibited by these systems was demonstrated to arise from a combination of the double-layer capacitance and pseudo-capacitance associated with surface redox-type reactions.
本课题对双分级再还原低氧化氮技术进行了试验、数值模拟及反应机理简化的研究。
The study of double staged and deoxidized technology by means of experimental, numerical simulation and reaction mechanism methods has been performed in this paper.
建立了一种新的制备手性2-辛醇的方法——双菌氧化还原耦联转化外消旋2-辛醇制备(R)-2-辛醇。
To develop a practical process for(R)-2-octanol production from racemic 2-octanol, a two step microbial reaction was investigated.
过氧化氢是氧还原途径的产物,由分子氧双电子还原或者超氧阴离子自由基单电子还原产生。
Hydrogen peroxide is a part of the oxygen reduction pathway, produced by the two-electron reduction of molecular oxygen, or by the one electron reduction of superoxide anion radical.
研究了系列不同掺杂、不同掺杂浓度、单掺杂和双掺杂以及不同后处理态(生长态、还原态和氧化态)铌酸锂晶体的透过率光谱和光折变二波耦合效应。
The experimental results show that the optical transmission spectra range and two-wave mixing gains are smaller in the high doped LiNbO_3 crystals.
研究了系列不同掺杂、不同掺杂浓度、单掺杂和双掺杂以及不同后处理态(生长态、还原态和氧化态)铌酸锂晶体的透过率光谱和光折变二波耦合效应。
The experimental results show that the optical transmission spectra range and two-wave mixing gains are smaller in the high doped LiNbO_3 crystals.
应用推荐