氧化还原电极有时用作内显示器。
Sometimes oxidation-reduction electrodes are used as internal indicators.
电流的产生是由于氧化反应和还原反应分别在两个电极上进行的结果。
Current was the result of oxidation and reduction reaction were carried out in two electrode results.
在另一个系统中,通过电极和离子的氧化还原化学反应产生电力。
In the other system, electric power is generated based on an oxidation-reduction chemical reaction of an electrode and ions.
将此方法应用于氧化还原计算程序中对标准电极电势库的调用,妥善地解决了数据源配置问题。
This method applied into REDOX computation program to call the standard electrode potential databases resolves the problem in configuring data source appropriately.
由于抗坏血酸(AA)在MWNT修饰电极上的氧化是不可逆的,因此利用还原峰进行测定,消除了AA对DA和EP的干扰。
Because the oxidation of ascorbic acid (AA) is an irreversible reaction in MWNT film, as a result the interferences of AA for determining da and EP were eliminated.
以旋转线扫伏安和旋转循环伏安法研究了甲醇的电化学氧化还原过程中电极旋转速度的影响。
The electro-oxidation of methanol in aqueous solution was investigated by linear and cyclic voltammetry with platinum rotation disk electrode.
本文还总结了构建及应用氧化还原酶器件所面对的挑战,包括电极和酶之间较差的电接触,装置较短的使用寿命和不尽如人意的可扩展性。
The review describes the challenges of constructing and applying REDOX enzyme devices, including the poor electrical contact between electrodes and enzymes and low lifetime and scalability of devices.
氧化还原蛋白-电极系统可以应用在包括能源、生物医学以及环境等多种领域。
Redox protein–electrode systems are evolving for several applications, including energy, biomedical and environmental purposes.
普鲁士蓝(PB)可以作为许多生物化学物质的人工酶来修饰惰性电极,用来催化它们的氧化还原。
Prussian Blue (PB) can be modified on inert electrodes acting as artificial enzyme of many biological or chemical substances to catalyse their REDOX reactions.
采用电化学阴极还原阳极氧化方法制备了纳米铂微粒电极。
The nanoparticle platinum electrode owned plenty of active points and well electrocatalytic property based on the exposed platinum particles with v.
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.
多晶铂电极因钼酸盐的还原与氧化而得以修饰。
With the reduction of molybdates and the oxidation of the reduced molybdates, the platinum electrode is modified.
复合膜修饰玻碳电极对葡萄糖具有良好的电催化氧化还原性能。
Glassy carbon electrode modified with the composite membrane showed good performance of electro-catalytic oxidation-reduction for glucose.
实验表明,不同工作方式下电极呈现不同的响应,对于可逆氧化还原物质,当电极在产生— 收集方式时,电流成倍增加,达到稳态电流时间大大缩短。
They are of analytical advantages for reversible redox species. In generation-collection mode, steady state currents can be obtained at both electrodes with very short transient time.
结果表明,6 -MHA在金电极表面能够形成一层稳定的自组装膜,并对叶绿素的氧化还原过程具有明显的催化作用。
The results show that 6 MHA can form stable SAM on gold electrode, and this 6 MHA SAM electrode has obvious catalysis for the REDOX reaction of chlorophylls.
目的:通过对氧化还原滴定法中电极电位的计算公式的推导,提高测量的准确度。
Objective: By deducing compute for solving electrode potential of gauging point in the exidimetric and reductometric titration method, raise accuracy of measurement.
结合电极中二氧化锰催化剂作用下的氧气还原机理以及物质传递过程,建立数学模型。
A model considering the ORR mechanism and the mass transport process of species was built to simulate the operation of GDE.
膜有稳定的氧化还原电流峰,电位漂移小,重现性好,适合于制成新型参比电极。
POAP-Fe(CN)3-6 film has a stable redox current peak, a small potential drift and a good repeatability, and it can be used as a new model reference electrode.
膜有稳定的氧化还原电流峰,电位漂移小,重现性好,适合于制成新型参比电极。
POAP-Fe(CN)3-6 film has a stable redox current peak, a small potential drift and a good repeatability, and it can be used as a new model reference electrode.
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