正磷酸鐵 的英文怎麼說

中文拼音 [zhēnglīnsuāntiě]
正磷酸鐵 英文
ferric orthophosphate
  • : 正名詞(正月) the first month of the lunar year; the first moon
  • : 名詞[化學] phosphorus (15號元素,符號p)
  • : 酸構詞成分。
  • : Ⅰ名詞1 (金屬元素) iron (fe) 2 (指刀槍等) arms; weapon 3 (姓氏) a surname Ⅱ形容詞1 (形容...
  • 磷酸 : [無機化學] orthophosphoric acid; phosphoric acid磷酸胺 [化學] phosphamide; ammonium phosphate; 磷...
  1. In this paper we describe the synthesis of x = 0. 5 of a - zirconium benzyl - n, n - dimethylphonphonate - phosphate ( a - zbdmpp ) host matrix for the first time, studied the intercalation behavior of a - zbdmpp to butylamine guest molecule in room temperature. the inorganic - poh made a - zbdmpp possible to accept guest molecule

    5的書胺雙甲基( a zbdmpp )主體底物,研究了( a zbdmpp )在常溫下對丁胺客體分子的插層性能, a zbdmpp中無機殘基的存在使插層反應成為可能。
  2. Recent development of lifepo4 cathode materials for lithium - ion batteries

    鋰離子蓄電池極活性材料
  3. Research progress in tin - based negative electrode materials for li - ion batteries

    鋰鋰離子電池極材料的研究
  4. Because of its high theoretical capacity ( 170 mah ? g ~ ( - 1 ) ), and feasible voltage ( about 3. 5v versus li ~ + / li ), good stability both at room temperature and high temperature, and being environmental benign and inexpensive, lifepo4 is very hopeful material as positive electrode materials for the future lithium - ion batteries material

    鋰( lifepo _ 4 )因其具有高的理論比容量( 170mah ? g ~ ( - 1 ) ) ,約為3 . 5v的電壓,較好的常溫和高溫穩定性,低廉的成本和優良的環保性能,成為下一代鋰離子電池最有前途的極材料。
  5. Presently lithium iron phosphate ( lifepo4 ) has become more and more concerned for its so many obvious characters such as few toxic 、 environmental friendly 、 low raw material cost 、 high specific capacity 、 excellent cycle performance and safety, and it is considered to be the most promising cathode material for dynamical battery

    鋰( lifepo4 )以其無毒、對環境友好、原材料來源廣泛、比容量高、循環性能及安全性能好等顯著特點,受到了人們的廣泛關注,被認為是動力電池最有發展前途的極材料。
  6. In this thesis, the physical properties of a series of na2fepo4f cathode materials synthesized by various routes are instigated and discussed in the light of structural ( xrd ), thermal ( dta ) analyses and particle size distribution. their microstructures were studied by transmission electron microscope ( tem ) and scan electron microscope ( sem ). the electrochemistry property were evaluated with cells containing the synthesized na2fepo4f as positive electrode

    本文將藉助x -射線衍射、掃描電鏡、透射電鏡、差熱分析以及電化學測試等方法,系統研究多種制備法對所合成的鈉離子二次電池極活性材料氟鈉的微結構以及循環可逆容量、循環伏安性能、交流阻抗譜的影響。
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