ionic conductivity 中文意思是什麼

ionic conductivity 解釋
離子傳導性
  • ionic : adj 愛奧尼亞的,愛奧尼亞人的;愛奧尼亞音步的;【建築】愛奧尼亞式的。 Ionic capital 愛奧尼亞式的柱...
  • conductivity : n. 【物理學】傳導性[力],傳導率;導電率[性,系數]。
  1. Ionic liquids are extensively studied in areas of chemical synthesis, separation technology, electrochemistry and material processing due to their unique properties such as high electrical conductivity, high thermal stability, low measurable vapor pressure and incombustibility

    摘要由於離子液體具有電導率高、熱穩定性好、蒸氣壓低、不燃燒等優良性質,越來越多地應用於有機合成、分離、電化學和材料加工等領域。
  2. Due to its excellently chemical and thermal stability, mechanical properties and nearly pure oxygen ionic conductivity, yttria - stabilized zirconia ( ysz ) has been actively investigated and applied in widely technical fields

    釔穩定的氧化鋯( ysz ) ,由於其特別優異的化學及熱穩定性、力學性能,和幾乎純的氧離子導電性,而被廣泛研究和應用。
  3. Some results were obtained that adulterating zirconia with yttria, viz. yttria - stabilized zirconia ( ysz ), has some oxygen ion vacancies, sequentially has ionic conductivity. and the influence on ysz ion conductivity of the different adulterated concentration of yttria was discussed

    以溶膠-凝膠( sol - gel )理論為基礎,制備釔穩定立方相二氧化鋯( ysz )溶膠-凝膠膜,並對不同的藥品配比進行測試與比較。
  4. The results show that effects of alkali metal salts on conductivity are different because of their different anion radium, crystal lattice energy, ionic mobility and solubility in electrolytes, that different ionic conduction modes of electrolytes result to double - peak of salt concentration dependence of conductivity and different temperature dependence, and that different influences of plasticizer to conductivity result from their different action

    結果表明,不同堿金屬鹽對電解質電導率的影響因其陽離子半徑、晶格能、離子淌度以及在電解質中的溶解度的不同而不同;電導率的鹽濃度依賴性因電解質的離子傳導方式不同而明顯呈現雙峰形;增塑劑對電導率的影響則因其作用方式不同而產生不同的效果;電導率的溫度依賴性也因電解質的離子傳導方式不同而呈現不同的規律。
  5. In this article, the bellcore method was used to prepare polymer electrolyte membrane based on pvdf - hfp, and polymer electrolyte membranes under different conditions were prepared by changing sorts of solvents 、 ratio of dbp and solvent. effects of ratio of plasticizer and solvent on the liquid uptake 、 sem 、 mechanism capability 、 ionic conductivity 、 electrochemical stability window of polymer electrolyte membrane were also studied. through optimizing the preparation technics, the integrated effects of additives such as pc 、 ec 、 dbp and nanophase al2o3 on the ionic conductivity 、 liquid uptake were studied

    本文以聚偏氟乙烯-六氟丙烯共聚物pvdf - hfp為基質,採用bellcore制膜法制備了pvdf - hfp聚合物電解質膜,通過改變增塑劑dbp的含量、溶劑的種類及溶劑的含量制備了不同條件下的聚合物電解質膜,分別研究了增塑劑含量、溶劑含量等對聚合物電解質膜的吸液率、表面形貌、機械性能、離子電導率、電化學穩定窗口等的影響;對制備工藝進行了優化,研究了各種添加劑如pc 、 ec 、 dbp及納米al2o3對聚合物電解質膜的離子電導率、吸液率等性能的綜合影響。
  6. The questions the researcher concerned are which system will be chosen and how to obtain the good lithium ionic conductor materials, which is the basic departure of the paper. the addition of second phase in composite can change the interface structure and the conduction mechanism, improve the matrix conductivity and other function such as the sintering, crisping and so on, so the research of composites are an interesting field of the ionic conductors. the synthesis of lithium ionic conductor is often by solid state reaction, but this method needs high temperature and leads to the volatility of lithium which not only causes the drift of the compounds but gets the no well - distributed materials

    研究者所關注的問題是選擇新的體系進行研究,以期得到性能更好的鋰離子導體材料,這也正是本論文的基本出發點;復合離子導體中第二相的加入改善了基質的界面結構和導電機制,不僅可以提高基質材料的電導率,還可以在一定程度上改善材料的其它性能,如燒結性能、脆性和機械強度等。因此復合材料的研究是離子導體一個有廣闊前景的發展方向;合成鋰離子導體,特別是成分復雜的體系以傳統的固相合成法為主,但這種方法需要較高的溫度,容易引起鋰的揮發,從而造成產物組成的偏移,而且不易得到顯微結構均勻的材料。
  7. From sem of the polymer, we can found that, the polymer containing no dbp made by solvent of nmp had more and large pores than solvent of dmac, so it had larger liquid uptake and higher ionic conductivity

    從sem測試圖上也可以看出,不含dbp時,溶劑為nmp條件下制備的聚合物膜孔徑比溶劑為dmac時大,孔隙多,吸液率大,離子電導率高。
  8. Recent advances of all - solid - state polymer electrolyte systems that can be probably used in lithium ion batteries are reviewed, focusing on their electrochemical performances, especially the ionic conductivity at room temperature

    綜述了鋰離子電池聚合物常溫固體電解質的最新研究進展。主要關注的是電化學性能,尤其是室溫下的離子電導率。對性能較好的聚合物固體電解質體系進行了概述。
  9. Solvents of dmac and nmp were used to prepare polymer electrolyte membrane, when the ratio of dbp and solvent was 20 %, both of the ionic conductivity can arrive at 10 - 3 s ? cm - 1, and the ionic conductivity of polymer made by nmp was 35 % higher than by dmac

    分別用溶劑dmac及nmp制備了聚合物電解質膜,在增塑劑與溶劑體積比為20 %時,聚合物膜的離子電導率均能達到10 - 3s ? cm - 1 ,且以nmp為溶劑的聚合物膜的電導率比以dmac為溶劑的電導率高出大約35 % 。
  10. The liquid uptake of polymer electrolyte membrane first increase, then remaining the same as the increasing of ratio of solvents. mechanism capability and ionic conductivity fist increase then decrease during the process, but it changed not much in total. through the test of sem it can be found that the structure of membrane changed little during the process

    在增塑劑含量及聚合物基質含量一定的條件下,隨溶劑含量的增大,聚合物膜的吸液率先增大后基本保持不變,機械強度及離子電導率則先增大后減小,通過sem測試可知,膜的表面形貌無明顯變化。
  11. Conductivity mechanism of a - quartz is ionic, and alkali and hydrogen ions moving in channels parallel to the c - axis are the predominant current carriers

    石英的導電機制主要為離子導電,載流子可能為堿金屬離子和氫離子,這些堿金屬離子和氫離子主要在平行於光軸的通道中運動。
  12. Synthesis, structure and ionic conductivity of knb0. 9zr0. 1o2

    結構及離子導電性
  13. Synthesis and ionic conductivity of knb0. 9mg0. 1o3 - asolid electrolyte

    固體電解質的合成及其離子導電性
  14. The research of the new and high conductivity material of lithium ionic conductor is always an interesting issue in the material field due to its low potential, light weight and providing high cell voltage and energy density

    由於鋰具有較負的電極電勢和較輕的重量,可以為電化學器件提供高的電池電壓和能量密度,所以鋰離子導體高電導率新材料的研究一直是材料研究領域倍受關注的課題之一。
  15. In this work, the solid solution of li3. 4sio. 4vo. 6o4 as the matrix was chosen because of its suitable path for the mobility of li ions and the different material as the second phase to synthesize a series of lithium ionic conductor composites by sol - gel method, which bases on the opinion of the composites having higher ionic conductivity, and to research the synthetics method, compound - structure - function and so on

    本論文基於復合離子導體具有較高的離子電導率的觀點,以具有鋰離子可遷移通道結構的li _ ( 3 . 4 ) si _ ( 0 . 4 ) v _ ( 0 . 6 ) o _ 4固溶體作為基質,用不同的氧化物或鋰鹽為第二相,採用溶膠-凝膠法合成了一系列復合鋰離子導體新材料,並對其合成方法、組成-結構-性能關系進行了系統的研究。
  16. Comparison of the synthesis methods of na5ysi4o12 and its ionic conductivity

    12的合成方法比較及其離子導電性質研究
  17. Tow types of fuel - cell models can be distinguished : microscopic and macroscopic. this paper adopt agglomerate microscopic model to analyze the fuel cell ' s performance. according to the computation, it can be concluded that the performances are determined by the thickness of the electrode, the effective ionic conductivity, the radius of agglomerate and other parameters

    對燃料電池單體,建立了微觀的數學模型? ?聚塊模型,用nenmanbandj方法計算熔融碳酸鹽燃料電池陽極和陰極的過電位,分析了各種參數的影響,對電極的制備,提高單電池的性能,有一定的指導意義。
  18. Much attention has been paid on pure or doped zirconia thin films because of their high melting point, low heat conductivity, high ionic conductivity and chemical durability. in the case of metal - oxide - semiconductor ( mos ) devices and high - temperature superconductor ( hts ) wires, zirconia epitaxial thin films are promising buffer layers and have been intensely studied in the past two decades

    純的或摻雜的氧化鋯薄膜因其高熔點、低熱導率、高離子導電能力和高溫化學穩定性而受到相當的重視,而且氧化鋯外延薄膜在金屬氧化物半導體( mos ) 、高溫超導帶材等領域的應用受到越來越多的關注。
  19. With the concentration of liclo4 turning higher, the viscosity of epichlorohydrin crosslinked polyethenoxy ether macromolecule electrolyte increases and the ionic conductivity decreases. with these three layers, the all - solid state electrochromic device has excellent electrochemistry performance, long color preserving time and its life - span is longer than five months

    通過以上三層薄膜材料製成的全固態電致變色器件電化學性能良好,顏色持續時間長,放置5個月後依舊有很好的電致變色性能。
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