極譜氧電極 的英文怎麼說
中文拼音 [jípǔyǎngdiànjí]
極譜氧電極
英文
polarographic oxygen electrode-
On the basis of the equivalent circuit diagram the solid - solid and the composite - electrolyte interfaces, contributed their impedance in the relatively high and low frequency regions
第三部分是探討不同粒徑大小氧化釕奈米微粒復合電極在不同電位下之阻抗頻譜的變化,進而由等效電路圖來解釋其涵蓋的物理意義。In the third chapter, the influence of current density, solution concentration, erosion time and aging in ambient air on the pl spectra of ps suggests that peak would blue shift with current density increasing, and with erosion time and aging time prolonging ; with the increasing of solution concentration, peaks would red shift when solution concentration less than 1 : 1 but blue shift when solution concentration greater than 1 : 1. above phenomena can be explained by quantum confinement and light center model, but do not deny the action of si - h bonding and defect on the surface in the process of photoluminescence. at present, radiation mechanism is still one of the primary problems in the study of ps
在第z三章中;通過對比,分析了電流密度、陽極化時間、溶液濃度以及自i然氧化時間對多孔硅光致發光光譜的影響,認為在一定的范圍內,多i孔硅的發光峰位會隨電流密度的增大而藍移,要獲得較強的發光,需z要選擇合適的電流密度;隨著腐蝕時間的延長,多孔硅的發光峰位會i發生藍移;當f酸的濃度較小q : 1 )時,峰位隨濃度的增大表現為向i低能移動;而當f酸的濃度較大河山時,峰位隨濃度的增大則表現z為移向高能;多孔硅在空氣中自然氧化;其發光峰位發生藍移,而強i度隨放置時間的延長而降低。Through the ir transparent spectra, we found anion of anodizing electrolytes, also participate the formation of porous membrane during the anodizing procedure
通過ir光譜的譜線發現,在陽極氧化過程中,電解液中的陰離子也參與了多孔膜的形成。The electrochemical impedance spectroscopy of anodic reaction shows that the formation of black nickel was mainly controlled by electrochemical reaction at low anodic potential, and is mainly controlled by electrochemical reaction and diffusion at high anodic potental. with the increasing of anodic potential., the formation of black nickel is still controlled by electrochemical re
陽極反應的電化學阻抗譜表明,氧化電位較低時ni ( oh ) :氧化生成黑鎳的過程主要受電化學反應所控制,電位較高時,黑鎳形成過程主要受電化學反應及擴散混合控制,電位進一步增加,析氮反應占據主導優勢,陽極氧化過程仍主要受電化學反應及擴散混合控制。First, it is associated with the prepared conditions of spectral pure graphite electrode ; second, compared with the untreated graphite, the surface functional groups of ? oh and ? cooh on the treated one increased dramatically with hot concentrated h2so4 and the impurities on electrode surface decreased significantly with ultrasonic rinse. a sequence reaction mechanism was proposed for the eis of mn ( ) / mn ( ) on different graphite electrodes. the spectral graphite and the treated one can be suitable for the inert electrode of mn ( ) / mn ( ) cathode
分析原因認為:一方面與光譜純石墨電極的制備條件有關;另一方面,與未處理石墨電極相比,處理石墨表面含氧官能團? oh 、 ? cooh明顯增多,而且超聲清洗又使其表面雜質含量減少,並提出了一個反應機理解釋mn ( iii ) / mn ( ii )電對在三種石墨電極上阻抗譜的不同,說明光譜純石墨和處理石墨均可以作為mn ( iii ) / mn ( ii )正極電對的惰性工作電極。分享友人