1) lithium vanadium compound
锂钒化合物
2) lithium vanadium oxide
锂钒氧化物
1.
Recent development of lithium vanadium oxides as cathode materials for rechargeable lithium-ion batteries;
锂离子蓄电池正极材料锂钒氧化物研究进展
2.
Via the solid-phase synthesizing method,a series of fluorine ion doped lithium vanadium oxides with the fluorine contents of 0.
56%的系列修饰锂钒氧化物。
3.
Layered-type compound of lithium vanadium oxide LiV3O8 was synthesized at about 450℃ by the sol-gel method with LiNO3 and NH3 VO3 as raw materials.
以LiNO3和NH4VO3为原料,通过溶胶-凝胶法制备了层状锂钒氧化物LiV3O8锂离子电池正极材料,通过TG-DTG、XRD等考察了合成条件对产物首次放电比容量的影响。
3) lithium manganese vanadium oxides
锂锰钒氧化物
4) fluorine doped Li-V-O system
掺氟锂钒氧化物
5) vanadium compound
钒化合物
1.
The effects of a stabilizer containing vanadium compound on current efficiency, appearance and structure of the deposits from a bright acidic tin (Ⅱ) sulfate solution containing Shiff base brightener were studied.
研究了 Shiff碱型光亮剂的酸性镀锡体系中 ,钒化合物稳定剂对锡电沉积的电流效率和镀层外观及织构的影响。
6) Vanadium compounds
钒化合物
1.
The chemical species of vanadium compounds and their physical-chemical characters are reviewed.
综述了钒的物种变化及其基本化学性质 ,介绍了钒化合物的生物效应和毒理作用机
2.
The solvent extraction was used to isolate vanadium compounds from Lungu atmospheric residue(LGAR) heptane asphaltene which were treated by mild-hydrogenation methods.
采用缓和加氢方法处理轮古常压渣油(LGAR)正庚烷沥青质,并用溶剂萃取方法分离缓和加氢后的正庚烷沥青质中的金属钒化合物,采用紫外-可见分光光度(UV-vis)法和基质辅助激光解吸电离飞行时间质谱(MALDI-TOFMS)法分析萃取得到的钒化合物的存在形态,也考察了缓和加氢后水相中的钒化合物的存在形态。
3.
In recent years, it is found that the vanadium compounds can play an important role in controlling the level of blood sugar because they are insulin-like.
近年来,四价或五价无机钒及有机钒化合物在体内体外的胰岛素样作用,尤其是对糖尿病的治疗作用逐渐得到证实。
补充资料:有机锂化合物
通式RLi(R-烃基)。如丁基锂C4H9Li、苯基锂C6H5Li等。可溶于乙醚、苯、石油醚等非极性溶剂。化学性质类似烷基卤化镁,但更活泼。可与金属卤化物、含羰基物质、卤代烃和含有活泼氢化合物反应。是重要的有机合成试剂。能与醛、酮(含有羰基)等反应生成相应的醇等。可由卤代烃与金属锂在无水乙醚或苯中反应制得。
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