本文首先对导电剂石墨和乙炔黑进行了表面处理。
First, the surface treatment on the graphite and acetylene black was carried out as following.
在干电池中用膨胀石墨代替乙炔黑作为电芯材料。
The expansion graphite replaced acetylene black as electrical core material in dry battery.
考察了葡萄糖、乙炔黑以及石墨等不同碳源对目标材料性能的影响。
The effects of different carbon source, such as dextrose, acetylene black and graphite, on the performance of as-synthesized cathode materials were investigated and the causes also analyzed.
这是因为乙炔黑的粒度比石墨小,比表面积相对更大,能很好地分散在活性物质之间。
It is because that the particle size of acetylene black is smaller than that of graphite, it is easy to disperse well among active material.
最后,加入50%乙炔黑的聚苯胺电解质的电池光电转换效率达到了液态电池的48%。
Final ly, the overall energy conversion efficiency of DSSC with PANI50% (in weight) acetylene black electrolyte is 48% of that of liquid DSSC.
通过试验,发现新型干电池的性能不比现行电池性能差,许多方面已超过乙炔黑电芯干电池。
It has been found by experiment that the performances of new-type dry battery were not inferior to ones of present battery, which has advantages over acetylene black in many aspects.
因此,聚苯胺乙炔黑复合电解质可以作为有效的空穴导体材料,应用到固态染料敏化太阳能电池中。
Therefore, the PANI acetylene black composition is a credible alternative to hole conductor in ap plication of solid DSSC.
本研究中PVDF粘结剂的添加量在7一10%,乙炔黑导电剂的添加量在8%左右,正极极片的性能最佳。
When the amount of PVDF and acetylene black is 7~10% and 8%, the positive plate obtained possesses optimum properties in our studies.
对PVDF粘结剂和乙炔 黑导电剂的添加量进行了优化研究。
The amount of additives of PVDF binder and acetylene black conductor is studied in the paper.
本文对乙炔炭黑、导电炉黑等作为填料的导电硅橡胶的导电性进行了研究。
The paper studies the electric conductivity of electric silicon rubber using acetylene carbon black, electric stove black, etc as a filler.
所述聚合物复合物可以另外包括1到2重量%的细乙炔炭黑。
Said polymer composite can also contain a fine-dispersed acetylene carbon black in a quantity of 1.2 mass%.
所述聚合物复合物可以另外包括1到2重量%的细乙炔炭黑。
Said polymer composite can also contain a fine-dispersed acetylene carbon black in a quantity of 1.2 mass%.
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