電極性 的英文怎麼說
中文拼音 [diànjíxìng]
電極性
英文
electric polarity-
Effect of preparation conditions on the performance of active carbon electrode
制備條件對活性炭電極性能的影響The factors affecting the properties of air electrode were examined in this article and mno2 / c was prepared. the process parameters of air electrode were optimized, and the aluminum / air battery was also assembled
本文主要針對影響空氣電極性能的因素進行了系統的研究,制備了mno _ 2 / c催化劑,確定了空氣電極的最佳制備工藝,將空氣電極與鋁陽極組裝成電池,並初步考察了電池的性能。Air electrode is one of the most important components in zinc - air cell. the main effect factors on performance of air electrode are catalysts ’ oxidation and deoxidization capability and structure of oxygen electrode
空氣電極是鋅-空氣電池的重要組成部分之一,影響空氣電極性能的主要因素是催化劑的氧化還原性能和空氣電極結構。A novel photohormone indole 3 - acetic acid sensor, plant tissue - ferrocene modified carbon paste electrode ( pfmce ), has been developed. the features of the electrode were investigated by cyclic voltammetry and the basic conditions needed for the optimal activity of iaa oxidase were also studied
提出了一種以綠豆芽葉片組織?二茂鐵修飾的碳糊電極作為植物生長激素-吲哚乙酸傳感器的研製方法,探討了影響電極性能的因素,初步研究了iaa氧化酶處于最優活性的基本條件。Performance improvement in mg - ni hydrogen storage alloys
貯氫合金電極性能的因素The polarity disappeared at 950 c for 2h
研究發現電極性消失的溫度為950 。By means of the electrochemical measurement, the effect of the metal oxide additives such as pbo, bi2o3, in2o3 and electrolytic additive of : c16h33 ( ch3 ) 3nbr. on the performance of zinc electrode were investigated
電極添加劑主要考察了pbo 、 bi _ 2o _ 3 、 in _ 2o _ 3三種金屬氧化物對鋅電極性能的影響,電解液添加劑主要考察了十六烷基三甲基溴化銨的添加對鋅電極性能的影響。Anti - static polyester : steel and iron manufacturing facility, cement facility, facility including the risk due to fine dusts, high anti - static polarity ( 105 - 108 / square ), low pressure drop, good dust cleaning
抗靜電滌綸:鋼鐵製造設備,水泥設備,一些容易因小火而導致損害的儀器設備;強抗靜電,極性( 105 - 108每平方) ,低壓降,除塵率好。The research results show that the radius of the gas channels and the electronic conductivity in carbon phase of the reaction layer, and the porosity of the gas diffusion layer are relatively less important
研究結果表明氣體擴散層孔隙率,反應層氣體通道的半徑以及碳相中電子傳導率等參數的變化對電極性能影響不大。The calculation results show that the radius of the gas channels in the reaction layer and the porosity and average pore radius of the gas - diffusion layer seem to be less important for the performance of the electrode
模型結果表明對于電極性能而言,氣體擴散層的孔隙率與平均孔徑以及反應層氣體通道的半徑,相對其他參數來說顯得不太重要。The sol - gel method and solid - state thermal reaction technique were used to prepare the composite oxides with variable lithium content. the doping treatments of some compounds were conducted. dta and tg were used to analyse synthesis mechanism, xrd to analyse phase composition, sem to observe morphology, li - b / licl - kcl / oxide simulated thermal cells to analyse the lithium - intercalation mechanism and properties of cathode material
實驗中採用溶膠?凝膠工藝和固相熱反應技術制取相應的不同鋰含量的復合氧化物,並嘗試對某些化合物進行適當的摻雜處理,應用dta和tg分析合成機制、 xrd分析所得物的物相組成、 sem觀察其形貌,模擬li - b / licl - kcl /氧化物的單體熱電池來分析陰極材料的嵌鋰機制及其電極性質。Results came as follows : in this dissertation, we found that it was the smallness of the positive electrode capacitance that limits the performance of carbon based supercapacitors in alkaline electrolytes, and the performance could be meliorated if the active material loaded on positive electrode increased. activated carbon electrode was proved to have good capacitor performances in neutral electrolyte such as ammonium sulfate solution and ammonium nitrate solution, but a correlated problem is the corrosion of the metal current collector
本文通過考察活性炭電極在堿性電解液中的電極行為,指出活性炭電極在堿性溶液中正極性能較差是影響碳基超級電容器性能的重要因素,增大正極活性物質的載量能夠使電容性能得到一定程度的改善,同時發現活性炭電極在硫酸銨和硝酸銨等中性電解液中具有優越的電極性能,但存在金屬集流體的腐蝕問題。For the pemfc cathode, besides above the parameters, the effects of the thickness of the reaction layer, the ion conductivity of nafion electrolyte and the electronic conductivity in carbon phase of the reaction layer on the electrode performance have also been investigated
在對pemfc陰極的研究中,除了以上參數以外還考慮了反應層厚度, nafion ~ ( ? )電解質的離子傳導率以及反應層中碳相傳導率對電極性能的影響。The spontaneous polarity was firstly observed by electron - beam bombardment and scanning electron microscope ( stm )
利用電子束轟擊和掃描成像手段,首此觀察到了電氣石的自發極化導致的電極性。A kind of novel composite photocatalysts containing tio2 and tourmaline particles, such as tourmaline / tio2 composite photocatalysts and tourmaline / [ tio2, sio2 ] composite photocalysts, were fabricated mainly by the sol - gel technique, whose microstructure, photocatalystic activities and spontaneous polarization were investigated by the scanning electron microscope ( sem ), uv - visible spectro - photometer, etc. the novel porous composite films of tourmaline / tio2 were prepared from alkoxide solutions on the surface of copper by sol - gel method
本工作利用電氣石礦物材料的天然電極性、輻射紅外線性能和tio _ 2的光催化性能,研製以電氣石為載體, tio _ 2薄膜和[ tio _ 2 , sio _ 2 ]復合薄膜為催化劑的新型復合催化材料。研究材料的制備技術、結構、性能及電氣石表面tio _ 2晶體生長機理、電氣石增強tio _ 2光催化效率機理。Study of the properties of hydrogen storage electrode in mixed electrolyte solution
混合電解液中貯氫電極性能的研究The electrode character of tourmaline particles influences the redox potential of water and regulates the ph value of solution to the weak alkali. the element sites on the surface of tourmaline powder play a bigger effect on acid solution than alkali solution
由於電氣石表面的電場作用,電氣石的電極性能夠影響水體的氧化還原電位,可維持水體為弱堿性,並分析了電氣石粉體表面位的影響。Li or al is doped into graphite before heat - treatment and exists in the form of ch3cooli or a1d3. the electrochemical characteristics of graphite anode doped with li or al are further enhanced
在人造石墨中摻雜li或al並進行熱處理, li和al分別以ch _ 3cooli 、 aid _ 3的形式存在於石墨材料中,電極性能得以進一步提高。However, the lack of high performance membrane electrode assembly ( mea ), the heart of dmfc, has become one of the key obstacles to its application
而為人們所關注。作為dmfc的心臟,膜電極性能低下是制約dmfc走向實用化的關鍵因素之一。It was found that the defects were formed and the conductivity increased with the addition of co, which improved the diffusion of proton and inhabited the formation of y - niooh. the electrochemical capacity of the electrode with cobalt additives changed slightly after 206 cycles. the electrode can exhibit excellent high - rate discharge performance, the capacity discharged at 6c ( 1800ma / g ) can reach to 77. 7 % of which discharged at 1c condition
在納米ni ( oh ) _ 2電極中加入鈷和鋅添加劑,並全面地分析了它們對電極性能的影響,發現加入鈷添加劑后增強了電極的導電性,形成雜質缺陷,更有利於質子的出入,同時抑制- niooh的形成,提高充放電效率和循環穩定性,電極在經過206個循環后變化甚小;電極的倍率放電性能相當出色,在1800ma g ( 6c )的大電流放電條件下,依然能放出1c的77 . 7 ;在鈷的添加方式中,以co和coo混合添加的效果最佳。分享友人