氧離子電池 的英文怎麼說

中文拼音 [yǎngzidiànchí]
氧離子電池 英文
ppacking
  • : 名詞[化學] (氣體元素) oxygen (o)
  • : Ⅰ動詞1 (離開) leave; part from; be away from; separate 2 (背離) go against 3 (缺少) dispens...
  • : 子Ⅰ名詞1 (兒子) son 2 (人的通稱) person 3 (古代特指有學問的男人) ancient title of respect f...
  • : Ⅰ名詞1 (有電荷存在和電荷變化的現象) electricity 2 (電報) telegram; cable Ⅱ動詞1 (觸電) give...
  • : 名詞1 (池塘) pool; pond 2 (旁邊高中間窪的地方) an enclosed space with raised sides 3 (舊指劇...
  • 離子 : [物理學] ion
  • 電池 : [電學] cell; battery; element; electric battery
  1. As a comparison, ba1. 03ce0. 8gd0. 2o3 - was synthesized by sol - gel method. among these samples, nonstoichiometric samples were synthesized for the first time. the research work involved : the crystal phase of the sinters were determined by xrd ; ionic conduction under different experimental atmospheres was measured by gas concentration cells ; performances of hydrogen - air fuel cells with the sinters as electrolytes and porous pt as electrodes were measured

    用粉末x射線衍射儀鑒定它們的結晶相;在( 600 1000 )范圍內,以燒結體作為解質隔膜,多孔性pt黑為正、負極, pt - rh合金網為集極,分別組成氫濃差濃差及氫?空氣燃料並測定了它們的性能,研究了不同氣氛下樣品的特性及影響燃料性能的因素。
  2. Linio2 - based compounds were promising candidates of cathode materials for lithium ion batteries. but they still possessed various problems such as the difficulty of preparation, the poor heat stability and the dissatisfactory cycleability performance and so on, which insolubility for its practical applications, so it must be optimized synthesis and changed perfomance

    鋰鎳系列極材料是當前鋰新一代正極材料的研究熱點之一,但是由於該系列材料存在著諸如制備困難、熱穩定性差、循環性能差等問題而不能實際應用,必須對其進行合成優化和性能改性。
  3. More recently, the perovskite manganite compounds, la1 - xsrxmno3 have been used as the cathode of the solid oxide fuel cell ( sofc ) because of their electro - ion conductivity properties. in manganite perovskites, substitution of divalent ions ( alkaline earth metals viz

    近幾年來, la _ ( 1 - x ) sr _ xmno _ 3這類鈣鈦礦型結構的化物材料因為其具有混合-特性而被廣泛的應用於固體化物燃料陰極材料。
  4. Research status of spinel limn2o4 battery material

    鋰錳化物正極活性材料
  5. Perovskite - type complex oxides of la1 - xsrxga1 - ymgyo3 compositions are characteristic of superior intermediate temperature oxide - ion conductivity and chemical stability, which are expected to be used in solid oxide fuel cells, sensors, electrocatalysis, membrane separators and membrane reactors. they have highly promising prospects in energy, metallurgy, chemical engineering and environmental protection, etc. in this dissertation, improved embeded sintering method has been employed to prepare la0. 8sr0. 2ga1 - ymgyo3 ( lsgm ) electrolyte, and the contributing factors to preparation, microstructure characteristics, conduction properties and thermology properties of lsgm electrolyte have been investigated

    鈣鈦礦結構la _ ( 1 - x ) sr _ xga _ ( 1 - y ) mg _ yo _ 3復合化物具有優異的中溫特性和化學穩定性,作為固體解質可用於固體化物燃料、傳感器、催化、膜分和膜反應器等,在能源、冶金、化工、環保等領域具有廣泛的應用前景。
  6. Research trend of li - mn - oxide cathode for li - ion cells

    正極材料鋰錳化物的研究進展
  7. Study on the oxide as anode material for lithium ion batteries

    化物負極材料的研究
  8. Oxygen diffusion transport and electrochemical reaction in the oxygen cathode of alkaline fuel cell ( afc ) and pemfc have been expressed with the tffa model, including oxygen transferring in gas channel of gas diffusion layer and reaction layer, oxygen dissolution and diffusion in thin - film of reaction layer, oxygen reaction and diffusion in flooded - agglomerate of reaction layer and the conduction of electron and ion. numeric algorithm of the model equations is also obtained

    本文將tffa模型應用於堿性燃料( afc )和質交換膜燃料( pemfc )陰極,推導出陰極各種傳遞和反應過程的描述方程,包括氣在氣體擴散層和反應層氣體通道中的擴散,氣在反應層薄膜中的溶解和擴散,在反應層浸漬聚集體中的反應和擴散以及的傳導,並給出方程的數值解法。
  9. The investigation and developing of lithium - ion batteries have attracted worldwide attention due to their excellent properties such as high cell voltage and specific capacity, and so on. remarking progress has been made on researching carbon anode materials

    壓高、比容量大等優點倍受世人關注,對鋰的碳負極材料的研究已取得較大的進展,但正極材料中因鋰鈷化物價高而使其應用受到限制,開發新型的正極材料已是當務之急。
  10. ( 3 ) the free - standing porous silicon films with continuous porous structure were prepared on single crystal silicon wafer by the method of anodic oxidation and electrochemical etching - electropolishing, and firstly used as the anode materials for lithium ion secondary batteries. the capacities of lithium ions storage and the process of charge and discharge of this nano - silicon anode materials as well as the influence of the structure of ps on behavior of storing lithium ions were inspected at length. on the other hand, through the process of charge and discharge in cells, the lithium of light metal element could be electrochemically doped into ps at different doping levels

    胡勁松河北師死大學碩士學位論文( 3 )利用陽極化法在單晶硅基底上制備了多孔硅自支撐膜,並首次將這種具有連續多孔結構的硅材料用作了理的陽極材料,考察了這種納米級硅陽極的儲鉀性能和充放過程,分析了材料結構對其儲理行為的影響;另一方面,利用這種充放過程在多孔硅中化學引入了不同點綴程度的輕金屬鉀元素,考察了鉀點綴對多孔硅自身結構,及至性質所帶來的影響,提供了一種通過化學方法插入埋從而連續調整多孔硅發光性質的有效方法。
  11. Mixed oxygen ion - electron conducting ( miec ) oxides have both the oxygen ion and electron conductivity at elevated temperatures, and have shown promising applications in oxygen separation, membrane reactors and solid oxide fuel cell

    摘要混合導體透膜材料在高溫下具有混合導性能,在純制備、膜反應器以及固體燃料等方面展現出廣闊的應用前景。
  12. Study of oxidative manganese lithium layered structure material of the lithium ion battery

    層狀化鋰錳的合成及摻雜改性研究進展
  13. 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鋰的正極材料。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。
  14. There is 148mah / g theory capacity in spinel limn2o4, which has lots of advantages, such as synthesize method is simple, the price is low, and is friendly to environment. the spinel limn2o4 is perfect substitution of li - ion batteries cathode. but now it has not been commercialized because its capacity fades during the cycle of charge - discharge

    Limn2o4具有尖晶石結構,其理論放容量達148mah / g ,由於制備工藝簡單、價格低廉、對環境友好等,是一種很有應用前景的鋰正極材料;尖晶石limn2o4正極材料在充放循環過程中由於錳元素的溶解、晶格發生jahn - teller變形和解液的化分解,使得容量衰減較快,至今未能商業化。
  15. A study on the synthesis, structure and performance of linio2 - based compounds as cathode materials for lithium ion batteries was carried out systemically and in detail in this dissertation. as the first step of this study, a sol - gel method using citric acid as a chelating agent was developed. the reaction conditions in sol - gel process, pre - calcination process and calcination process, especially sintering temperature and sintering time in calcinations process, were analyzed and optimized carefully

    本文採用多種結構分析、表面分析、熱分析和化學研究方法和實驗手段,從合成方法、結構特徵、化學性能、熱穩定性和貯存性能等多方面對鋰鎳系列極材料進行了系統深入的研究,制備出性能良好的鋰鎳系列極材料,解釋了鈦的摻雜對極材料的作用機理,揭示了鋰鎳系列極材料的貯存失效機理,並借鑒和發展了rietveld結構精修方法和tpd - ms技術在鋰極材料研究中的應用。
  16. This thesis focuses on the study of the layered lithium nickel - based oxides as catho de materials lithium - ion batteries, the main aspects follow : 1 study on the synthesis and properties of linixco1 - xo2 by the sol - gel method compared with solid - state method, sol - gel method enjoys the advantage of lower calcining temperature and small uniform particle size of products. after the xrd measurement, it was shown that the single - phase layered compound can be prepared in sintering temperature of 750 for 6 ~ 8 hours. the sintering temperature, the properties and the amounts of doping materials can all affect the product ' s phase, and its structure ( lattice parameter, crystal phase distance )

    本論文的研究工作主要集中在作為鋰正極材料的層狀鋰鎳基化物上,包括以下幾個方面: 1溶膠凝膠法( sol - gel )合成lini _ xco _ ( 1 - x ) o _ 2的研究與固相合成法相比,溶膠凝膠法合成lini _ xco _ ( 1 - x ) o _ 2煅燒溫度低,產物顆粒均勻一致,經過xrd的測試過后,結果表明750下燒結6 8小時,即可得到單相產物;燒結溫度,摻雜劑的種類及摻雜劑量均對產物物相的形成產生影響,並對產物的結構產生影響。
  17. This paper covers two parts. the first part reported mn ( iii ) / mn ( ii ) couple was used to be the cathode in a redox flow cell. the second one studied tin - based materials for anodes in lithium - ion batteries

    本文共分兩部分,第一部分對mn ( iii ) / mn ( ii )對作為化還原液流正極材料的可行性進行研究;第二部分對鋰錫基負極材料進行制備、表徵及化學性質研究。
  18. Transition metal oxides with high inserted potential are used as cathode material of li - ion batteries generally. at present, layered compounds lico02, lini02 and spinel limn204 are extensively studied

    具有高插入位的過渡金屬化物常用作鋰的正極材料,目前研究較多的是層狀結構的licoo _ 2 、 linio _ 2 。
  19. The performance of the eliica surpasses that of gasoline powered vehicles, and it is an environmentally friendly vehicle that employs a lithium - ion battery which does not emit any co2

    Eliica的表現超越了汽油動力汽車,而且是採用鋰的環保車,不排放任何二化碳。
  20. Lithium vanadium oxides display high capacity and low price as cathode materials for lithium ion batteries. lithium vanadium oxides, however, are hard to be synthesized because of the various valences of vanadium. if the factors of price and comprehensive electrochemical properties a re considered, the cathode materials of ( lithium ) vanadium oxides should be recognized as the most potential cathode materials for lithium ion batteries

    (鋰)釩化物類正極材料容量大、價格低,但由於釩的多價態導致(鋰)釩化物類正極材料制備困難,如果考慮價格和綜合性能等因素, (鋰)釩化物類正極材料更具有實際使用價值,所以(鋰)釩化物類正極材料被越來越多的研究者認同為是新一代最具發展潛力的鋰正極材料。
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