electrolyte composition 中文意思是什麼
electrolyte composition
解釋
電解質組- electrolyte : n. 電解質,電離質,電解(溶)液。
- composition : n 1 作文(法),作詩(法),作曲(法);作品,文章;樂曲;文體,措辭。2 編制;結構,構造,組成,...
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Various attempts have been made to study the effect of electrochemical polymerization processes including temperature, electrolyte composition and the deposited location on the strength and brittle - tough properties. by the mechanical measurement and testing, we found, compared with the mixed electrolyte composition of isopropyl alcohol ( ipa ) + 5 % boron trifluoride diethyl etherate ( bfee ) + 5 % polyethylene glycol ( peg ), the better mechanical properties of conducting ppy films were given by the mixed electrolyte compositon of ipa + 5 % bfee + 5 % deg
結果發現,當添加劑peg的濃度不變時,改變bfee的濃度可以改變薄膜材料的性能,其中以30的bfee濃度為最佳;當固定電解液中bfee濃度不變時,改變添加劑的濃度對制備的薄膜性能參數影響不明顯,但以peg100為臨界;降低溫度,可以使薄膜生長減緩,有利於得到性能更好的薄膜。 -
Theimportant technological parameters, which influence significantly thecharacterization of the screen - printed ysz electrolyte thin films, includingparticle size and particle size distribution of the starting ysz powder, composition of the screen - printing ink, sintering temperature of the screenprintedysz green films and printing times were investigated in detail
系統研究了影響絲網印刷工藝的幾個重要參數,如ysz粉末的粒徑及粒徑分佈、印刷漿料的組成、電解質膜坯體的燒結溫度和印刷層數。 -
The solid reaction synthetic process, sintering properties and phase composition of the lsgm samples are investigated by tg - dta, sem, xrd and the archimedes method. the results reveal that the sintering technology generated significant influence on the sintering properties of the lsgm samples. the optimum synthesis parameters to prepare lsgm electrolyte with a pure perovskite - type structure were ascertained ; the sintering temperature and chemical constitution contributed greatly to the phase composition, the solid solubility limit of lsgm electrolyte increased with increasing of the sintering temperature, and we made lsgm electrolyte of single - perovskite structure above 1400 #
本文採用改進埋燒法制備出la _ ( 0 . 8 ) sr _ ( 0 . 2 ) ga _ ( 1 - y ) mg _ yo _ 3 ( lsgm )電解質,對制備方法與工藝參數、材料結構、電學性能以及熱學性能進行了研究,分析了組成、結構與導電性能的關系,探討了離子傳輸機制,其目的在於為該類離子導體的進一步研究和應用提供實驗和理論依據。 -
The present studies have proved that the most important factor which influences the performances of lithium metal anode in battery is the solid electrolyte interphase interface - film ( sei film ) on lithium anode. and how to make lithium metal anode have a sei film with favorable composition and stable configuration, or make the sei film have better stability, is the key to improve the electrochemistry performances of lithium metal anode in lithium secondary battery
已有的研究證明:影響金屬鋰負極在電池中性能的主要因素是其表面的固體電解質中間相界面膜( sei膜)的性能;如何使鋰金屬電極表面具有組成良好、結構穩定的sei膜,或者使鋰電極表面sei膜能夠更好的「穩定化」 ,是提高鋰二次電池中鋰金屬負極電化學性能的關鍵。 -
The composition and mechanism of cdse thin films were explored by x - ray energy dispersion analysis ( eds ) and x - ray penetration spectrum ( xps ). the effect of electro - deposition conditions such as potential ( vs. sce ) of cathode, concentration of electrolyte on composition and mechanism of as - fabricated cdse thin films were gained, which provided experimental foundation and ideal basis for template - electro - deposition preparation of cdse nano - wire arrays
採用eds和xps兩種分析方法對cdse薄膜的組成進行了表徵,得到了陰極電位值( vs . see )和電解液濃度對edse薄膜組成的影響關系,為以hzseo3和seso32 -為硒源,用模板一電沉積法制備cdse納米線陣列提供了實驗依據和理論基礎。 -
In this paper, the ceramic coatings were prepared in situ on ti - 6al - 4v alloy by micro - plasma oxidation ( mpo ). the phase composition, microstructure and corrosion resistance of the ceramic coatings were studied in detail and the technology of corrosion resistant coatings was optimized. the dissolution of the substrate and the changes of the elements in the electrolyte during the mpo process were studied to discuss the growing characters and the structure of the ceramic coatings
本文通過微等離子體氧化( mpo )方法在ti - 6al - 4v鈦合金表面原位生長陶瓷膜,系統地研究陶瓷膜的相組成、微觀結構及膜層耐腐蝕性能,並優化耐蝕性陶瓷膜層制備工藝;分析基體在mpo過程中的溶解現象和電解液中離子濃度變化特點,探討電極表面陶瓷膜層生長規律和結構特點;研究膜層的等效電路、膜層結構與耐腐蝕性能的關系,並對優化工藝條件下制備的陶瓷膜層進行進一步的耐腐蝕性能測試和耐腐蝕機制研究。 -
The orthogonal experiment has been used to optimize the electrolyte composition and the craft parameters, with the increasing of the main salt and reducing agent concentration in the electrolyte, the electroless plating coating ’ s adhesive strength and the coverage ratio also increase ; increasing the complex agent content, the electroless plating coating ’ s adhesive strength and the coverage ratio exist the maximum value ; the electroless plating deposition rate distinctly increases when the electrolyte temperature and the ph value were increased, but the increasing of temperature and ph value affects the electrolyte ’ s stability
採用正交實驗對鍍液成分、工藝參數進行了優化,隨著鍍液主鹽、還原劑添加量的增加,鍍層結合強度及其覆蓋面依次增強,隨著絡合劑添加量的增加,鍍層結合強度及其覆蓋面先增加然後減少,隨著鍍液溫度及其ph值的升高,化學鍍沉積速度明顯提高,但影響鍍液的穩定性。 -
The condition of electrolyte preparation, the setup of instrument exporting cv voltage, the influence of co - deposition ir composition, the treatment of ta foil surface and annealing treatment of electrode are studied. the mechanism of ru compound deposition is discussed meantime
討論了電解液配製條件、儀器使用條件、共沉澱銥化物、鉭基體表面處理和電極片退火處理條件對產品性能的影響,並分析了沉積機理。
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