氢氧化锂

舱内用超氧化钾和氢氧化锂自动平衡供氧。

An auto balance reproducing oxygen supplier using KO2 and LiOH was provided .

氢氧化锂-活性炭纤维材料的制备和性能试验

Performance of LiOH combined with activated carbon fiber

ICP-AES法同时测定氯化锂和氢氧化锂中七种杂质元素

Simultaneous Determination of Seven Impurity Elements in Lithium Chloride and Lithium Hydroxide by ICP AES

研究了以一水氢氧化锂、电解二氧化锰EMD、三氧化二铬为原料，直接高温固相合成LiMn（0.85）Cr（0.15）O2。

LiMn_0.85Cr_0.15O_2 was synthesized with lithium hydroxide , electrolyte manganese dioxide , chromium trioxide by solid state synthesis method at high temperature .

采用LiOH为锂源.采取混合研磨后压块以及烘干Ni（OH）2，Co（OH）2后加入氢氧化锂的预合成方式更有利于合成反应的进行。

The results show that using LiOH as lithium resources and extrusion molding after mixed grinding , and adding LiOH after stoving Ni ( OH ) 2 and Co ( OH ) 2 are favorable for the synthesis .

以氢氧化锂、硅溶胶为原料，在催化剂存在下，50～70℃保温反应2.5～3.0h，合成了硅酸锂。

S : Lithium silicate is synthesized by lithium hydroxide reacting with silicon sol with catalyst present under 50 ~ 70 ℃, 2.5 ~ 3.0 h.

三室膜电解法由硫酸锂制备氢氧化锂的实验研究

Preparation of lithium hydroxide from lithium sulphate in a three-compartments membrane electrolysis system

卤水制备氢氧化锂研究进展

Research of Preparation and Use of Lithium Hydroxide

采用氢氧化锂与磷酸中和反应制得磷酸锂。

The neutralization reaction of lithium hydroxide and phosphoric acid is adopted to produce lithium phosphate .

氢氧化锂在特殊环境中用作空气净化剂，吸收人体呼吸排出的二氧化碳。

Lithium hydroxide is used as purificant in special environment to adsorb CO2 breathed out by person .

氢氧化锂与碱-集料反应

Lithium Hydroxide & Alkali-Aggregate Reaction

以氢氧化锂/助催化剂为催化剂体系，柠檬醛为原料合成β-紫罗兰酮。

The citral is used as raw material and the lithium hydroxide / cocatalyst complex as catalyst produce Bata-ionone .

选择分析纯烟酸和一水氢氧化锂为反应物，利用水热合成方法合成了无水烟酸锂。

Nicotinic acid and lithium hydroxide monohydrate were chosen as the reactants , anhydrous lithium nicotinate was synthesized by the method of hydrothermal synthesis .

重点介绍了卤水制备氢氧化锂的方法和工艺，并展望了卤水生产氢氧化锂的前景。

The preparation methods of lithium hydroxide from brines are described in detail . Furthermore , the foreground of producing lithium hydroxide from brines is prospected .

乙酸锂制备的材料粒径较小，结晶度较差；氢氧化锂制备的正极材料具有较高的结晶度，进而表现出更优的电化学性能。

The product prepared by lithium acetate has smaller particle size and lower crystallinity . In contrast , the cathode material prepared by lithium hydroxide possesses higher crystallinity and better electrochemical performance .

研究表明在溴化四甲基铵、溴化四乙基铵、聚乙二醇（分子量为6000）和聚乙二醇（分子量为400）相转移催化体系中，氢氧化锂最好，氢氧化钾次之，氢氧化钠最次。

In the presence of the phase transfer catalysts such as tetramethylammonium bromide , tetraethylammonium bromide or polyethylene glycol ( MW 400 and 6,000 ), lithium hydroxide is the best alkali among lithium hydroxide , sodium hydroxide and potassium hydroxide .