transition metal oxide 中文意思是什麼

transition metal oxide 解釋
過渡金屬氧化物
  • transition : n 轉變,演變,變遷,變化;飛越;過渡期;【音樂】變調,轉調;【修辭學】語次轉變;【語法】轉換;【...
  • metal : n 1 金屬;金屬製品;金屬合金。2 【化學】金屬元素;(opp alloy);金屬性。3 【徽章】金色;銀色。4 ...
  • oxide : n. 【化學】氧化物。 antimony oxide 銻白,氧化銻。 deuterium oxide 重水,氧化氘。 mercuric oxide 氧化汞。 nitric oxide 一氧化一氮。
  1. Study on photocatalytic activity of transition metal oxide doped tio2 photocatalysts

    2光催化性能的研究
  2. The regulations of the transition metal vanadium oxide synthesis were found. those results are helpful to synthesize the vanadates effectively

    論文工作表明水熱方法是一條合成具有特殊形貌釩酸鹽的有效途徑。
  3. A composite electrode material comprising carbon nanotube and transition metal oxide may meet both the powerand the energy requirements. the properties of supercapacitor utilizing carbon nanotube as electrode material are studied

    通過充分利用其較大的比表面積和適宜的孔徑,可望得到大容量、高功率的超級電容器,與過渡金屬氧化物復合更能提高其綜合性能。
  4. The formation process of w - type ferrite underwent from oxide of metal, the m - type transition phase to final w - phase. when the heating rate was 5 / min, at 900 for 3 hrs and 1200 for 4 hrs, pure m - type and w - type ferrites were formed in air respectively. with heat treatment temperature increasing, crystal structure was more intact, the saturation magnetization increased and the coercive force decreased

    熱處理過程表明, m型鐵氧體直接由金屬氧化物反應形成,未經歷尖晶石中間相; w型鐵氧體形成由金屬氧化物到m相過渡相最終向w相的轉變;當升溫速率為5 min ,溫度在900 ,保溫3小時和1200保溫4小時,就分別形成單相m相和w相鐵氧體;隨著熱處理溫度的升高和保溫時間的延長,衍射峰變尖銳,結晶更完整,空心微球的飽和磁化強度增大,矯頑力減小。
  5. Hydrothermal synthesis is an effective route for the synthesis of transition metal vanadium oxide. tubular vanadium oxide can be synthesized by adjusting the ph of reaction system, regulating the ratio of reactants and controlling the reaction temperature

    通過合理的調節反應物配比、調節體系的ph值、選擇合適的反應溫度,可以得到具有管狀結構的釩酸鹽晶體。
  6. The process of heat - treatment showed m - type ferrite was straightly formed from metal oxide without the transition of spinel phase

    實驗結果表明:該方法制備的空心微球粒徑分佈較廣,主要在4 20 m之間,平均密度在2 . 50g cm ~ 3左右。
  7. The purpose of the first chapter is to survey the fundamental principles, characterizations and applications of supercapacitors, especially the recent progress of researches on supercapacitors using carbon, transition - metal oxide and conducting polymer as electrode materials in their supporting electrolytes

    第一章綜述了超級電容器的儲能機理、特點、應用范圍等,並介紹了碳基材料、金屬氧化物和導電聚合物做電極材料,以及各種電解液的超級電容器的最新研究進展。
  8. The first chapter is to present the fundamental principles, characterizations and applications of supercapacitors, especially the recent progress of researches on supercapacitors using carbon, transition metal oxide and its composites as electrode materials

    採用水熱合成法制備了tio2納米管,並且採用氧化還原法使ru1 - ycryo2沉積在tio2納米管上,形成ru1 - ycryo2 / tio2納米管復合材料。
  9. The first chapter concentrated on the survey the fundamental principles, characterizations and applications of supercapacitors, especially the recent progress of the supercapacitors using carbon, transition - metal oxide and conducting polymer as electrode materials and the hybrid supercapacitors

    第一章概述了電化學電容器的儲能機理、特點、應用范圍等,並介紹了碳基材料、金屬氧化物和導電聚合物做電極材料,以及混合電化學電容器的最新研究進展。
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