研究的多孔炭包括炭黑、炭气凝胶和多壁碳纳米管。
The porous carbons including carbon black, carbon aerogel and multiwall carbon nanotube were studied.
改变炭气凝胶与碳化钨的比例,可控制气凝胶的空间孔径范围。
The spatial aperture range of aerogel can be controlled by changing the ratio of the carbon aerogel to the tungsten carbide.
采用正交试验方法重点考察了炭化工艺条件对炭气凝胶结构和性能的影响。
The effects of operating condition of carbonization on structure and properties of carbon aerogels are investigated by orthogonal experiment.
这很可能是炭气凝胶在燃料电池阴极催化剂载体方面取得优良性能的原因之一。
This was probably the reason for its good performance in the application of cathode catalyst support in fuel cells.
这很可能是炭气凝胶在燃料电池阴极催化剂载体方面取得优良性能的原因之一。
This was probably the reason for its good performance in the application of cathode catalyst support in fuel cells.
应用推荐