1) citric acid-nitrate method
柠檬酸-硝酸盐法
2) nitrate-citric acid method
硝酸盐-柠檬酸法
1.
Study on the preparation of Ce_(0.8)Sm_(0.2)O_(1.9) by nitrate-citric acid method and its performances;
硝酸盐-柠檬酸法制备Ce_(0.8)Sm_(0.2)O_(1.9)及其性能研究
2.
9 (NiO/SDC) composite powders were prepared by nitrate-citric acid method.
采用硝酸盐-柠檬酸法合成出不同NiO含量的NiO/Ce0。
3) citric-nitrate process
柠檬酸硝酸盐法
1.
9(SDC) electrolyte powders were prepared by using glycine-nitrate process,solid-state process and citric-nitrate process,respectively.
分别采用硝酸盐-苷氨酸燃烧法、固相法和柠檬酸硝酸盐法制备了钐掺杂的氧化铈电解质材料Sm0。
4) citrate-nitrate combustion
柠檬酸-硝酸盐燃烧法
1.
Cu2+, La3+ and (Cu2+, La3+) co-doped BST ceramics were fabricated from the powder prepared by using barium nitrate, strontium nitrate, copper nitrate, lanthanum nitrate,tetra-n-butyl titanate, and ammonium hydroxide via a citrate-nitrate combustion process.
以硝酸钡、硝酸锶、钛酸四丁脂、硝酸铜、硝酸镧以及氨水为原料,利用柠檬酸-硝酸盐燃烧法制备了Ba0。
2.
5)TiO_3 (BST) powder was prepared by using barium nitrate, stron-tium nitrate, tetra-n-butyI titanate, and ammonium hydroxide via citrate-nitrate combustion pro-cess.
以硝酸钡、硝酸锶,钛酸四丁脂以及氨水为原料,利用柠檬酸-硝酸盐燃烧法制备了Ba_(0。
5) citrate method
柠檬酸盐法
1.
Effect of a La_(0.8)Sr_(0.2)Ga_(0.8)Mg_(0.15)Co_(0.05)O_3 interlayer synthesized by the citrate method on the cathode performance;
柠檬酸盐法制备的La_(0·8)Sr_(0·2)Ga_(0·8)Mg_(0·15)Co_(0·05)O_3夹层对阴极性能的影响
2.
Preparation and properties of powders of La_(0.7)Sr_(0.3-x)Ca_xCo_(0.9)Fe_(0.1)O_(3-δ) using a citrate method for intermediate temperature solid oxide fuel cells;
中温固体氧化物燃料阴极La_(0.7)Sr_(0.3-x)Ca_xCo_(0.9)Fe_(0.1)O_(3-δ)粉体的柠檬酸盐法合成及性能
3.
8)O_(3-δ) perovskite-type powder was prepared by the citrate method.
采用柠檬酸盐法合成了La0。
6) citrate
[英]['sitreit] [美]['sɪtret]
柠檬酸盐
1.
Mechanism of flue gas desulfurization with citrate solution;
柠檬酸盐法烟气脱硫机理
2.
Study on low temperature electroless nickel plating from citrate bath;
柠檬酸盐体系低温化学镀镍的研究
3.
Determination of free citrate in citrate electrolytic copper stripping solution;
柠檬酸盐电解退铜液中游离柠檬酸根浓度的分析
补充资料:甘氨酸柠檬酸盐
分子式:C12H23N3O23
分子量:417
CAS号:暂无
性质:白色结晶粉末,无气味,有柠檬酸味道。极易溶于水,水溶液显酸性,不溶于醇和有机溶剂。
制备方法:暂无
用途:暂无
分子量:417
CAS号:暂无
性质:白色结晶粉末,无气味,有柠檬酸味道。极易溶于水,水溶液显酸性,不溶于醇和有机溶剂。
制备方法:暂无
用途:暂无
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