鋰錳 的英文怎麼說

中文拼音 [měng]
鋰錳 英文
limn2o4
  • : 名詞[化學] lithium (3號元素,符號li)
  • : 名詞[化學] manganese (25號元素, 符號 mn)
  1. The results show that the composition of these precursors are identified to be limn2l ( ac ) 2 ( or ltmn2c10h11o11 ), in which l represents citric acid radical and ac is acetic acid radical. the sintering temperature and sintering time have remarkable effects on the microstructures of limn2o4 samples

    結果表明通過低熱固相反應法可在全固相條件下得到離子與離子達到分子級混合水平的前驅體,其組成基本上與分子式limn _ 2c _ ( 10 ) h _ ( 11 ) o _ ( 11 )相吻合。
  2. Research status of spinel limn2o4 battery material

    離子蓄電池鋰錳氧化物正極活性材料
  3. Several series of lithium battery products have been researched and developed, such as lithium ion battery, lithium thionyl chloride battery and lithium manganese dioxide battery. with dozens of types including rectangular battery, cylindric battery and button cell, etc

    研究室技術力量雄厚,始終跟蹤國際前沿技術,研製開發了亞硫酰氯原電池系列、鋰錳原電池和離子蓄電池等多種系列的電池產品,有方形、圓柱形、硬幣式等幾十種規格。
  4. Recently, a new layered limno2 which has higher capacity than spinel limn2o4, has become the hot topic of cathode of lithium - ion batteries

    最近,具有比尖晶石型的鋰錳氧化物更高理論容量的層狀結構的limno2 ,成為當前的研究熱點。
  5. Research trend of li - mn - oxide cathode for li - ion cells

    離子電池正極材料鋰錳氧化物的研究進展
  6. Spinel lithium manganese oxide as the precursor of lithium ionic sieve is presented with respect to its structure and synthesis method, and the solid - state coordination reaction method and hydrothermal method are considered as promising ways of synthesis

    摘要介紹了作為離子篩前體的尖晶石型鋰錳氧化物的結構與合成方法,指出固相配位反應法和水熱合成法極具發展前景。
  7. Tremendous efforts are underway on the lithium manganese oxides which are considered to attractive alternatives in term of cost, abundance and nontoxicity for lithium ion battery. the spinel li4mn5o12 and cation - doped lithium manganese oxides were synthesized by sol - gel method which is considered as a promising method

    本文以立方晶系尖晶石結構的富鋰錳氧化物為主要研究對象,以檸檬酸為配合劑,用溶膠-凝膠法合成了純凈的單相尖晶石li _ 4mn _ 5o _ ( 12 )以及摻雜產物。
  8. Keywords : lithium - ion secondary batteries, lithium cobalt oxide, lithium nickel oxide, lithium manganese oxide, and nanotechnology

    關鍵詞:離子二次電池、鈷氧化物、鎳氧化物、鋰錳氧化物、奈米科技。
  9. The result indicated that the samples multi - doped by co3 +, ni2 +, f - kept the origin spinal structure. at a current density of 100ma / g

    並且隨著co3 + 、 ni2 + 、 f -離子多元摻雜量的增加,鋰錳尖晶石4v區充放電平臺得到了改善。
  10. After finished the cyclic voltammetry experiments, the results showed that iron steel grid can act as good current collector in the aqueous electrolyte. while the scan rate was fall in the range of 0. 5 - 4. 0mv / s, electrochemical reaction of the lithium insertion / extraction in the solid phase was kinetically limited by the diffusion of lithium ions. after 40 cycles in aqueous electrolyte the discharge capacities of sample of s13 reached 77mah / g, and showed good cycle performance

    在水溶液中不銹鋼網可以作為電極的集流體,在0 . 5 - 4 . 0mv / s的掃描速度范圍內,離子在尖晶石鋰錳氧化物的嵌入和脫嵌的電化學反應在動力學上是受離子在固相中的擴散所控制,充放電實驗顯示樣品s13在水電解液中經過40個循環后達到77mah / g的放電容量,具有很好的循環穩定性。
  11. 3v lithium manganese dioxide button cell

    3v扣式鋰錳
  12. Research progress on lithium manganese oxides as cathode materials for li - ion battery

    離子蓄電池正極材料鋰錳氧化物的研究進展
  13. Test research of synthesizing manganese and lithium oxides by detonation with emulsion explosive

    乳化炸藥爆炸合成鋰錳氧化物的實驗研究
  14. Study of oxidative manganese lithium layered structure material of the lithium ion battery

    離子電池層狀氧化鋰錳的合成及摻雜改性研究進展
  15. Spinel lithium manganese complex is preferable because of low cost, good performance and environmental friendliness

    尖晶石鋰錳化合物成本低、性能好、無污染,適合水溶液離子電池的電極材料。
  16. In this paper, the low - temperature synthesis method - sol - gel mehtod was used to improve the capacity fading of the cathode with cycling for lithium - ion secondary battery

    本文針對鋰錳氧化物循環過程中容量衰減的問題,採用了低溫合成方法即溶膠凝膠法。
  17. Based on the theoretical analysis and experimental study, the influence of technological conditions on the properties of product was systematically investigated by modern analytical methods of bet, xrd, sem, icp, tem, tga - dta and so on

    通過bet 、 xrd 、 sem 、 icp 、 tem 、 tga - dta 、粒度分析等分析測試手段,系統地考察了不同工藝條件對鋰錳氧化物的結構、物相等特徵的影響。
  18. Lithium manganese oxides have advantages as the positive active materials for lithium - ion batteries, such as non - toxicity, low cost etc. however, the capacity fade of lithium manganese oxides makes its application difficulty

    鋰錳氧化物由於具有污染低,價格便宜等優點,己經成為最有吸引力的離子電池的正極材料。但其容量衰減、循環壽命短等問題,成為困擾它商品化應用的主要障礙。
  19. When there are more nickel atom doped in spinel ( the mole ratio of mn and ni was 1. 4 : 0. 6 ), the discharging platform jumped to 4. 5v from original 3. 8v. the materials showed to suit for positive materials in 5v lithium ion batteries

    在純尖晶石中摻入的鎳量較大時(鋰錳的摩爾比為1 . 4 : 0 . 6 ) ,樣品的放電區間移到4 . 5v左右,得到適合做5v離子電池的正極材料。
  20. For resolve the jahn - teller effect, improve the capacities and cycle performance and decrease the cell price, a series of spinel lithium manganese oxides doped by lithium, nickel and titanium were prepared by liquid method

    為解決尖晶石鋰錳氧化物在進行深度充放電時的jahn - teller效應問題,提高電池的比能量和電池壽命以及降低電池成本等問題,本文用液相法合成出一系列用、鎳、鈦摻雜的尖晶石鋰錳氧化物。
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