離子電導性 的英文怎麼說

中文拼音 [zidiàndǎoxìng]
離子電導性 英文
ionic conductance
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  • 離子 : [物理學] ion
  1. As a comparison, ba1. 03ce0. 8gd0. 2o3 - was synthesized by sol - gel method. among these samples, nonstoichiometric samples were synthesized for the first time. the research work involved : the crystal phase of the sinters were determined by xrd ; ionic conduction under different experimental atmospheres was measured by gas concentration cells ; performances of hydrogen - air fuel cells with the sinters as electrolytes and porous pt as electrodes were measured

    用粉末x射線衍射儀鑒定它們的結晶相;在( 600 1000 )范圍內,以燒結體作為解質隔膜,多孔pt黑為正、負極, pt - rh合金網為集極,分別組成氫濃差池、氧濃差池及氫?空氣燃料池並測定了它們的能,研究了不同氣氛下樣品的及影響燃料能的因素。
  2. The total conductance of a solution depends on the number and kinds of ions in the solution and the characteristics of the electrodes.

    一種溶液的總度取決于溶液中的數目和種類以及極的特
  3. In this dissertation, refining grains, depositing conductibility carbon film on the surface of the particles and doping mg ~ ( 2 + ) into the lattice of lifepo4 were adopted to improve the electro - chemical performance of the cathode material. the cathode material lifepo4 mainly has two flaws, the low conductibility and the slow li + ion diffusion, which have a bad influence on the performance of the cathode material

    論文主要針對制約正極材料lifepo _ 4能的兩大致命的缺點,即低的率和低的鋰擴散速率,採取材料顆粒的細化、顆粒表面沉積碳層以及mg ~ ( ~ ( 2 + ) )摻雜等措施對其進行改探索,以提高正極材料lifepo _ 4的化學能。
  4. 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-而被廣泛的應用於固體氧化物燃料池陰極材料。
  5. The negative photoconductivity effect was found in the dimixing phthalocyanine composites. the experiment results indicated that the negative photoconductivity effects were closely related with the partial charge transfer from the center metals to phthalocyanine rings, and the separation efficiency of photocarriers was a key factor to the photoconductivity

    結果表明,共混復合后,其光能表現出負效應,並發現酞菁中心金屬與其相連的氮原之間的部分荷轉移是引起復合體系光能變化的根本原因,同時復合體系中的空穴對的分效率是影響光能的一個重要因素。
  6. A lot of experiments have been done in the process of exploiture soft packaging li - ion battery about how to choice the rational arts and crafts. the content include : how to deal with the collector, add how much pvdf in the material, how long the material need to stirring and the right viscidity, how much condubtivity agent the electrode need, what theckness is best, choice different collectors, the degree of dryness of the electrode, theckness of pressed model, how much electrolyte will be added, placement how long after added the electrolyte, system of formation how to influnce the battery, in formation the battery need or not need preesure from outside, how to vacuumize and the optimize matching positive pole and negative pole. with these practice make sure the parameter of the positive pole should less than 90 m ; according to different vacuumize order the conduc - tivity agent in anode will be 5mass % and 9mass %, respectively, and in cathode the data is 2mass % ; every 100mah added to 0. 4 ml electrolyte ; before formation the battery should be placement 8 hours and the system of formation must be less than 0. 01c before the voltage reach to 3. 0v ; should press in outside when battery in formation ; to these batteries which capacity more than 350mah the vacuum time not excess 15s ; the optimize matching positive pole and negative pole between 2. 10 : 1 and 2. 15 : 1. finally make out the battery which cycling performance and security are all very well

    液態軟包裝鋰池的研究主要是對關鍵工藝進行了優化設計,具體包括:集流體的處理、 pvdf的加入量、漿料攪拌時間和粘度、劑的加入量、極膜的厚度、不同集流體的選擇、極膜的乾燥程度、壓型的厚度、解液的加入量、注入解液后靜置時間的長短、化成制度的影響、化成時池所具有的壓力影響、抽真空的處理、正負極活物質的匹配。最後確定出液態軟包裝鋰池最佳工藝參數:正極膜的厚度小於90 m ;根據化成時不同抽真空順序,確定正極膜中的劑的加入量分別為5mass %和9mass % ;負極膜中劑的加入量為2mass % ;解液的加入量為每100mah添加0 . 4ml ;化成前池的靜置時間應當大於8h ;池在3 . 0v之前採用小於0 . 01c的化成制度;在化成過程中應當施加一定的外部壓力;對於350mah的池抽真空的延時不應大於15s ;而正負極活物質的質量比應當在2 . 1 : 1 2 . 15 : 1之間。
  7. 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,不同堿金屬鹽對解質率的影響因其陽半徑、晶格能、淌度以及在解質中的溶解度的不同而不同;率的鹽濃度依賴解質的方式不同而明顯呈現雙峰形;增塑劑對率的影響則因其作用方式不同而產生不同的效果;率的溫度依賴也因解質的方式不同而呈現不同的規律。
  8. 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解質膜,分別研究了增塑劑含量、溶劑含量等對聚合物解質膜的吸液率、表面形貌、機械能、率、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對聚合物解質膜的率、吸液率等能的綜合影響。
  9. 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 ~ ( ? )解質的率以及反應層中碳相傳率對能的影響。
  10. 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

    綜述了鋰池聚合物常溫固體解質的最新研究進展。主要關注的是化學能,尤其是室溫下的率。對能較好的聚合物固體解質體系進行了概述。
  11. In the mean time, i test the separator ’ s performance, including the rate of hole 、 the performance of absorbing electrolyte and the conductance eletrochemical steady range 、 machine intensity test, and then make bettery to test its cycle performance. the test result show that, the spreading separator get better performance, when dbp ’ s percentum reach 50 %, and dry temperature reach 90, after ultraviolet radiation disposal. the test show that, the separator has high conductance reach 6. 1 10 - 3s / cm ( 25 ), and the machine intensity can reach 3. 92 mpa, this separator can meet the need of making bettery, the bettery capability will go down after 30 cycle. and the bettery show worse performance under high temperature, under 70, the bettery will get fire. making the intensified seprator, i find that when dbp % : pvdf % = 40 % : 60 %, dbp % + pvdf % : sio2 % = 70 % : 30 %, the separator get

    但用其制備的池循環30周期后容量發生衰減,並且池高溫能差, 70下池燃燒;強化聚合物膜的最佳制備配比條件為: dbp : pvdf為40mass % : 60mass % , dbp含量與pvdf含量之和與納米sio2含量比值為70mass % : 30mass % ;強化解質隔膜的室溫率也可達4 10 - 3s / cm左右,完全能滿足聚合物鋰池的使用需要;機械強度遠遠大於流延法制得的隔膜,達到108 . 84mpa 。
  12. Now the ion conductivity of gel polymer electrolyte ( gpe ) can reach the magnitude of 10 - 3s / cm, which can satisfy the practical request. however, it is still lower than that of liquid electrolyte ( 10 - 2 s / cm ), which causes the fall of high rate discharge and low temperature performance of lithium battery

    目前凝膠聚合物解質( gpe )的室溫率可達10 ~ ( - 3 ) s cm數量級,已經能基本滿足應用的要求,但相比液態解液的率( 10 ~ ( - 2 ) s cm ) , gpe的率仍然偏低,使得凝膠聚合物鋰池的高充放速率和低溫能都大大的降低。
  13. Secondly, the sorts and weights of the components of the gel electrolyte are optimized, and a gpe with excellent performance is prepared, whose ion conductivity reachs 9. 2ms / cm. we analyze all the factors influencing the performance of the gpe, and study many performances of the gpe, including the microstructure, conductivity performance, liquid electrolyte holding ability, electrochemical stability, thermodynamics stability, and interfacial stability between electrolyte and electrode, et al

    其次,對gpe各組份進行了改進和優化,找到了最佳的配比,制備了能良好的凝膠解質,該gpe的室溫率最高可達9 . 2ms cm ;考察了影響凝膠解質能的各種因素;研究了凝膠解質的微觀結構、、保液化學穩定、熱力學穩定以及解質與極間的界面穩定質。
  14. In this paper, pure and doped ktp crystals were grown from the flux using a top - seeded method, and special technique have been used to lower the electrical conductivity to three orders of magnitude than common flux ktp, the values is up to 10 - 10 ( cm ) - 1, this overcame the shortcoming that common flux ktp cannot be used in e - o application field because of having higher electrical conductivity. the growth condition, doped elements and annealing technology were investigated. single crystals of ktp with high quality and big z - cut cross section were obtained by optimizing the parameter of crystal growth

    本實驗採用頂部籽晶熔劑法生長了純的以及不同摻雜的ktp晶體,用特殊工藝處理技術將普通熔劑法ktp的率降低了三個數量級,達到了10 ~ ( - 10 ) ( cm ) ~ ( - 1 ) ,解決了普通熔劑法ktp晶體由於率太大而無法用於光應用領域的困難;對ktp晶體的生長條件、摻雜元素以及退火工藝等進行了研究,通過優化生長工藝技術參數,突破了工藝技術生長難關,得到了高光學均勻、具有大z切面的ktp單晶。
  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

    本論文基於復合體具有較高的率的觀點,以具有鋰可遷移通道結構的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體新材料,並對其合成方法、組成-結構-能關系進行了系統的研究。
  16. Mixed oxygen ion - electron conducting ( miec ) oxides have both the oxygen ion and electron conductivity at elevated temperatures, and have shown promising applications in oxygen separation, membrane reactors and solid oxide fuel cell

    摘要混合體透氧膜材料在高溫下具有氧混合能,在純氧制備、膜反應器以及固體燃料池等方面展現出廣闊的應用前景。
  17. The influences of sei and electrolyte conductance was investigated when lithium ion battery was discharged in high current

    研究了sei膜及解液率等對鋰池大流放能的控製作用。
  18. Based on summarizing li - ion batteries, some pertinent data and looking into the status quo about spinel limna research at home and abroad, it " s known that the deficiency of the material lies in inhomogeneity. motley phase. instability as well as poor reversibility

    本文在綜述鋰池及其相關材料的基礎上,分析了國內外尖晶石limn _ 2o _ 4的研究現狀,可知limn _ 2o _ 4正極材料的不足之處在於材料的均勻不好,合成產物物相多,結構不穩定,從而致材料能差。
  19. According to the practical requirement, the theme apply management theory, qualitative quantitative method, it considers the trait of the battery industry and the regularity of green battery as the background, directed by the clue of developing tianjin green battery, based on analyzing the developing situation of lithium - ion battery industry. according to the character and regularity, combining with the developing condition of tianjin, inducing the strategy of developing the industry in tianjin

    本課題針對這一實際需求,應用管理理論,採用定與定量相結合的方法,以世界池產業的發展特點以及綠色池產業特點、發展規律為大背景,以發展天津市綠色池的對策研究思路為指,在分析國內外鋰池發展狀況的基礎上,根據鋰池產業發展規律及特點,結合我市鋰池的發展狀況,提出天津市發展鋰池產業的對策。
  20. Lithium vanadium oxides display high capacity and low price as cathode materials for lithium ion batteries. lithium vanadium oxides, however, are hard to be synthesized because of the various valences of vanadium. if the factors of price and comprehensive electrochemical properties a re considered, the cathode materials of ( lithium ) vanadium oxides should be recognized as the most potential cathode materials for lithium ion batteries

    (鋰)釩氧化物類正極材料容量大、價格低,但由於釩的多價態致(鋰)釩氧化物類正極材料制備困難,如果考慮價格和綜合能等因素, (鋰)釩氧化物類正極材料更具有實際使用價值,所以(鋰)釩氧化物類正極材料被越來越多的研究者認同為是新一代最具發展潛力的鋰池正極材料。
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