2) chemical liquid deposition
化学液相沉积法
1.
The Cu/CuPc composite particle was prepared with the method of chemical liquid deposition and the affect of dif.
采用化学液相沉积法制备了Cu/CuPc复合粒子,研究了不同的制备条件对复合粒子的影响。
3) chemical liquid-phase deposition
化学液相沉积
1.
Silicon-modified Hβ zeolites were prepared by chemical liquid-phase deposition of silicon oil.
采用化学液相沉积法对Hβ沸石进行硅改性,并对其催化萘异丙基化反应的性能进行了评价,考察了硅油类型、沉积量和沉积时间对硅改性Hβ沸石催化性能的影响;采用BET、X射线衍射、吡啶吸附-红外光谱和氨吸附-程序升温脱附等方法对Hβ沸石的晶相、孔结构和酸性进行了表征。
4) chemical liquid-vaporized infiltration
化学液气相沉积
1.
Study on chemical liquid-vaporized infiltration process for preparing carbon/carbon composites;
炭/炭复合材料化学液气相沉积致密化技术研究
2.
Carbon/carbon composites were prepared by chemical liquid-vaporized infiltration process with kerosene as the precursors and the needled carbon fiber felt with a density of 0.
利用化学液气相沉积工艺以煤油为前驱体,采用密度为0。
3.
It was illuminated the principle and advantage of chemical liquid-vaporized infiltration technology for preparation of carbon/carbon composites.
化学液气相沉积技术是目前最快的C/C复合材料的制备工艺,它的致密化速度是传统等温化学气相沉积工艺的100倍。
5) chemical liquid deposition
化学液相沉积
1.
Shape selective disproportionation of toluene over HZSM-5 zeolite modified by chemical liquid deposition :Ⅰ Effect of deposition conditions;
化学液相沉积法改性ZSM-5沸石上的甲苯择形歧化反应 Ⅰ沉积条件的影响
2.
A study on ablation properties of carbon/carbon composites manufactured by chemical liquid deposition;
化学液相沉积制备的炭/炭复合材料烧蚀性能研究
3.
Methylation of methylnaphthalene with methanol for preparing 2,6-dimethylnaphthalene(2,6-DMN)on Hβ molecular sieve catalysts modified by Si(OC_2H_5)_4 chemical liquid deposition was studied.
研究了用正硅酸乙酯化学液相沉积改性的Hβ分子筛催化剂催化甲基萘与甲醇的烷基化制备2,6-二甲基萘(2,6-DMN)的反应。
6) CLVD
化学液气相沉积
1.
By studying the densification process of the same height, different diameter and the same diameter , different height preforms, we examined the effects of preform geometry on radio frequency assisted chemical liquid vapor deposition(CLVD) of carbon preforms.
考察了预制体几何形状在高频辅助化学液气相沉积 (CLVD)工艺中的作用。
补充资料:液相色谱电化学
分子式:
CAS号:
性质:是把灵敏度高、选择性好的电化学方法与液相色谱结合而产生的一个研究领域,被称为是自脉冲伏安法出现以来,电分析化学领域中最有意义的进展。其特点是:灵敏度高,可测至10-15mol/L的物质;选择性好,只响应电活性物质,能提高分离分析效果;死体积小,可制成1μl甚至1nl的检测器;响应快;线性范围可达4~5个数量级。
CAS号:
性质:是把灵敏度高、选择性好的电化学方法与液相色谱结合而产生的一个研究领域,被称为是自脉冲伏安法出现以来,电分析化学领域中最有意义的进展。其特点是:灵敏度高,可测至10-15mol/L的物质;选择性好,只响应电活性物质,能提高分离分析效果;死体积小,可制成1μl甚至1nl的检测器;响应快;线性范围可达4~5个数量级。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条