鈷酸鋰 的英文怎麼說
中文拼音 [gǔsuānlǐ]
鈷酸鋰
英文
licoo2
-
鈷 :
名詞[化學] cobalt (27 號元素, 符號 co)
-
酸 :
酸構詞成分。
-
鋰 :
名詞[化學] lithium (3號元素,符號li)
-
The main products are pyro sintered zinc concentrate, zinc oxide direct method, zinc oxide indirect method, zinc sulphate, zinc oxide pharmaceutical grade, basic zinc carbonate, ammonium bifluoride, ammonium fluoride, sodium fluoride, strontium nitrate, lithium nitrate, lithium fluoride, cobalt salt, nickel salt, and etc. among above products, zinc oxide pharmaceutical grade were the first products in hebei province and the quality of zinc oxide pharmaceutical grade was approved by hebei medical bureau reference number : jweizhunzi94di8662
鋅焙砂氧化鋅硫
酸鋅鹽氟化物
鋰鹽鍶鹽鎳鹽鎘鹽
鈷鹽等幾大系列產品,其中醫用氧化鋅填補了河北省內空白,並於1994年被省衛生廳批準為藥用指定產品冀衛藥準字94第8662號。公司十分重視客戶的反映,並有同客戶建立長久合作關系的能力。
-
The results show that lioh ? h2o and emd are better and cheaper materials which have no environmental pollution. it was found that the synthesis temperature were important factor. the spinel lithium manganese oxide,
結果表明: lioh ? h _ 2o和emd是制備
鋰離子電池正極材料摻
鈷錳
酸鋰較好的合成原料,同時也是廉價、環保的合成原料; 750 , 20h為較好的合成溫度。
-
Preparation of high crystallinity lithium cobalt oxide and its microstructure featuring
高結晶度
鈷酸鋰制備及微結構表徵
-
Now, lithium - ion batteries make licoo2 and c to do cathode and anode. compared with the commercialized graphite materials with a theoretical capacity of 372mah / g, metals like sn and a1 have a higher lithium storing capacity
目前,市場上
鋰離子電池採用
鈷酸鋰作為正極材料,採用碳為負極材料。商品化的碳材料理論容量372mah / g 。
-
The paper investigated the process for synthesized the lithium cobalt oxide. in a lt - solid state reaction, co3o4 and li2co3 particles mole ratio 、 mixing time 、 grinding time and drying temperature are discussed, the grinding time is decreased notably and the mixture is more homogeneous than the traditional co3o4 particles
以自制超細co3o4為原料,進行了
鈷酸鋰固相法合成反應,研究了影響整個過程的各個因素,優化了混合、研磨、固相反應溫度、以及洗滌除雜等工藝參數。
-
The recent developments in normal spinel limn2o4 were reviewed, in the process of the solid state synthesis, we researched the effect of materials and synthesis temperature on crystal structure and electrochemical performance, which were characterized by dta - tg, sem, xrd as well as electrochemical performance testing. the structure, electrochemical performance and the correlations between them were all discussed in detail for these doped samples
本文在綜述國內外鋰離子電池尖晶石型材料limn _ 2o _ 4研究進展的基礎上,結合dta - tg 、 sem 、 xrd和電化學性能測試等手段,系統研究了固相法制備鋰離子電池正極材料摻鈷錳酸鋰合成原料、合成溫度對所得材料外觀形貌、晶體結構和電化學性能的影響。
