氧電極材料 的英文怎麼說
中文拼音 [yǎngdiànjícáiliào]
氧電極材料
英文
oxygen electrode material- 氧 : 名詞[化學] (氣體元素) oxygen (o)
- 電 : 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...
- 極 : i 名詞1 (頂點; 盡頭) the utmost point; extreme 2 (地球的南北兩端; 磁體的兩端; 電源或電器上電流...
- 材 : 名詞1 (木料) timber 2 (泛指可以直接製成成品的東西; 材料) material 3 (供寫作或參考的資料) ma...
- 料 : 名詞1 (材料; 原料) material; stuff 2 (喂牲口用的穀物) feed; fodder 3 (料器) glassware 4 (...
- 電極 : electrode; pole
- 材料 : 1. (原料) material 2. (資料) data; material 3. (適于做某種事的人才) makings; stuff
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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
鋰鎳氧系列電極材料是當前鋰離子電池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。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氧化物材料因為其具有混合電子-離子導電特性而被廣泛的應用於固體氧化物燃料電池陰極材料。This paper presents the performance of metal oxide anode material, deployment and configuration of anode ground bed, and makes contrast of grounding resistance and protective potential between metal oxide anode and duriron anode
文章介紹了金屬氧化物陽極材料的性能、陽極地床的布置及結構,並對比了金屬氧化物陽極與高硅鑄鐵陽極的接地電阻和保護電位。And the kinetic parameters of mn ( iii ) / mn ( ii ) redox process were calculated to be ks = 1. 771 10 - 4cm ? s - 1, io = 4. 801ma ? cm - 2 and = 0. 234. the value of ks is sufficient to warrant further study to improve the reaction rate and to assess the feasibility of this couple as positive half - cell in a redox - cell system
Mn ( ) / mn ( )體系在鉑盤電極上的標準速率常數ks的值說明可進一步研究來提高其反應速率,從而將mn ( ) / mn ( )電對作氧化還原液流電池的正極材料。( 3 ) despite of many studies on oxidationjlithiation of porous nickel, a very important factor abstract has not been pay much 8ttedion to, that is, most of the matcria [ s in mcfc actually work under a ioad generated by the self weight of mcfc stack, which undoubtedly has a great effect on the materials performance in mcfc
( 3 )盡管近些年來,對于金屬ni在熔鹽中的氧化鋰化行為已進行了相當深入的研究,但是有一個很重要的因素卻未被關注。即, mcfc電池堆中的電極材料在實際啟動和運行過程中總是處于由電池堆自身產生的負荷狀態,負荷的存在無疑對電極材料的性能產生不容忽視的影響。The spontaneous reduction of ni3 + to ni2 + is considered to the actual origin of chemical instability of linio2 during storage. the corresponding oxidization of lattice oxygen o2 " to active oxygen species ( o -, o2 - ) is thought to the direct cause of formation of li2co3 and adsorption of h2o and co2 on the surface of stored materials
Linioz電極材料中自發的ni3 + * ni2 +還原過程被認為是其貯存期間性能變質的產生根源,與之相對應的氧負離子生成活性氧物種則是電極材料表面形成lizc03及其它吸附物種的直接原因,而空氣中的coz和hzo促進了整個氧化還原反應的進行。After storage for a long time, a layer of li2co3 and absorbed species ( h2o, co2and o2 - ) will appear on the surface, and a thin nio - like layer will be formed on the near surface of linio2 material
長期貯存的linioz電極材料將在表面形成一層包含lizco3 、 hzo 、 co :以及殘余活性氧物種02 .在內的覆蓋層,以及在近表面層生成一層類似nio的立方巖鹽結構鈍化層,從而導致其電化學性能下降。Preparation and characterization of the carbon nano tubes supporting oxygen electrode material for pemfc
質子交換膜燃料電池中碳納米管負載的氧電極材料制備與表徵Although the ruthenium - oxide system gives very high specific capacitance, it has the inherent disadvantage of high price and toxicity
貴金屬氧化物( ruo _ 2 )是性能優異的超級電容器電極材料,但其價格昂貴,有毒。Research development on advanced metal oxide electrode materials for supercapacitors
超級電容器氧化物電極材料研究進展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、熱分析和電化學研究方法和實驗手段,從合成方法、結構特徵、電化學性能、熱穩定性和貯存性能等多方面對鋰鎳氧系列電極材料進行了系統深入的研究,制備出性能良好的鋰鎳氧系列電極材料,解釋了鈦的摻雜對電極材料的作用機理,揭示了鋰鎳氧系列電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技術在鋰離子電池電極材料研究中的應用。Zinc acts as negative material of zinc manganese dioxide batteries, with the advantages of low cost, little poison and easy treatment. in another way, as the material of batteries, zinc electrode has many problems, such as dendrite growth, shape - changing, passivation, corrosion and so on. at present, the main way to solve these problems is to add mercury and its oxide to zinc electrode
鋅錳電池採用鋅粉作為電池的負極材料,鋅資源豐富、價格低廉、毒性小、易處理,但是鋅作為電極材料使用存在枝晶、形變、鈍化和腐蝕等問題,目前,解決這些問題的主要方法是加入汞及其氧化物。The structural stability of delithiated cathode materials is also increased after co doping. therefore, co - doped materials show improved cycling performance and thermal stability. lini0. 8co0. 2o2 compound is thought the most promising candidate of cathode material for lithium ion batteries, although its thermal stability and cycling performance still need to further improve
綜合考慮容量和成本因素, lini _ ( 0 . 8 ) co _ ( 0 . 2 ) o _ 2摘要lini08co02oz電極材料是最具有實用化前景的鏗鎳鉆氧化物電極材料,但其熱穩定性和充放電循環穩定性仍然需要進一步改善和提高。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。The biosensor exhibited high sensitivity, rapid response. it was found the response current to xa decreased about 4 % after storage at 4 c for 14 days. in order to improve the stability of enzyme electrode, sol - gel was applied to the
論文利用碳納米管( cnt )制備黃嘌呤氧化酶( xod )電極,制備了xod / cnt / gc電極, cnt既是電極材料又作為xod與電極電子轉移的促進劑,實現了xod與gc電極的直接電子轉移。The comparison of carbon nanotube and active carbon and graphite nanofibers used as electrode material is also presented. a composite electrode material comprising carbon nanotubes and ruthenium oxide is obtained and the capacitance of supercapacitor reaches 270f / g. the carbon nanotube and the natural manganese oxide compounded for the first time and the initial results were achieved
本文採用納米碳管作為超級電容器電極材料,得到比電容量為110f g的超級電容器結構單元,討論了粘結劑、電解液等多種影響因素,並與乙炔黑電極和魚骨狀碳纖維電極進行了對比;制備了納米碳管與氧化釕復合材料,得到比電容量為270f g的超級電容器結構單元;本文還首次將納米碳管與大洋錳礦復合用作超級電容器電極材料,取得了初步成果,為天然礦物的開發利用開辟了一個新的發展方向。Meanwhile, the structural stability of delithiated cathode materials is also improved by ti doping. it results in the suppression of thermal decomposition reaction of delithiated cathode material, which will produce heat and oxygen gas as the fuse of electrolyte decomposition and combustion reaction. hence, thermal stability of delithiated cathode material is also enhanced by ti doping
同時,欽的摻雜增強了電極材料在脫鏗狀態下的結構穩定性,抑制了電極材料自身熱分解反應的發生,阻止了氧氣和熱量的釋放,減少或延遲了電解液的分解或燃燒反應,從而提高了電極材料的熱穩定性。Advancement of metal oxide electrode materials for supercapacitors
超級電容器氧化物電極材料的研究進展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。The thesis can be divided into four parts : 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 oxides and conducting polymers as electrode materials and the study of all solid - state and hybrid supercapacitors
以下是每一部分的具體內容: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,以及全固態和混合超級電容器的最新研究情況。分享友人