比容量 的英文怎麼說

中文拼音 [róngliáng]
比容量 英文
specific capacity
  • : Ⅰ動詞1 (比較; 較量高下、 長短、距離、好壞等) compare; compete; contrast; match; emulate 2 (比...
  • : 量動1. (度量) measure 2. (估量) estimate; size up
  1. While layered linio2is the most promising cathode materials : plenty in resource, cheapness in price, high specific capacity and non - toxicity

    層狀linio _ 2化合物,其資源豐富,價格低廉,比容量高,對環境友好,被公認為是最有希望的正極材料。
  2. The results show that : nano - nickel powder is not useful for mh electrode during the high rate discharge phase as a conductor or additive ; superfine nickel powder is applicable for the conductor of the negative because of the good performance especially the cyclic stability at 1c rate by using 5 % ( mass percentage ) nickel powder ; the utilization of alloy, specific mass and volume capacity are increased with the decreased particle size of nickel powder in negative, however, the capacity fading rate at 1c discharge rate is also increased, so the capacity and the cyclic stability should be taken into account to make a choice of the particle size

    結果表明: mh電極中加入納米鎳粉對負極的大電流放電性能不利。 mh電極中加入超細鎳粉后電極綜合性能好,尤其是1c循環穩定性,其最佳添加為5wt 。減小鎳粉粒度提高了電極合金利用率、質比容量、體積比容量,但增大了負極1c衰減率,因此鎳粉粒度的選擇應綜合考慮mh電極和循環穩定性。
  3. Secondly, better performance lifepo4 / c composite was synthesized by adding proper content of sucrose to the reactants, test results exhibited the initial discharge capability could get 130mah. g - 1 and the capability didn ’ t fade down after more than ten cycles ’ test

    2 .添加適的蔗糖制備出電化學性能良好的lifepo _ 4 / c復合的正極材料,其初始放電比容量高達130mah . g - 1 ;經10次充放電循環,材料的比容量幾乎不衰減。
  4. There can be found that activation is benefit to improve capacity and deposition to cycling property

    實驗發現,活化對提高比容量有利,沉積對改善循環性能有利。
  5. Method for measuring the discharge capacity of the hydrogen storage alloys as the negative electrode of the metal hydride - nickel battery

    金屬氫化物鎳電池負極用儲氫合金比容量的測定
  6. Although lini0. 8co0. 2o2 shows a lower first specific discharge capacity than linio2, it has a better cycling performance after 100 cycles

    盡管摻co后首次比容量降低了一些,但是100次后循環性能得到較大的提高。
  7. Comparing with other wet methods, the technical processing of this one is simple and there is no restriction for the raw materials

    以0 . 25ma . cm一的電流密度恆流放電,首次實際放電比容量可達350mah . g一,左右。
  8. Coal ldh ( ai : co = l : 2 ) as electrode has a stable structure and good cyclic performance. specific capacitance of its single electrode attains 400f / g

    Ai雙氫氧化物結構較穩定,循環性能較好,單電極比容量達到400fig 。
  9. Electrochemical measurements show that specific capacitance of single electrode is increased by 15 % and its impedance is only tens of m

    雙氫氧化物經水熱處理后單電極比容量提高了15 ,達460f4 ,電極內阻僅數十毫歐姆。
  10. The specific capacitance of singal electrode could reach 325f / g when the charge - discharge current was 2ma / cm2, and cycled over 5000 times

    在2ma cm ~ 2的充放電電流下測得的單電極比容量可達325 . 21f g ,循環壽命達5000次。
  11. There can be found that coating is benefit to improve capacity and deposition to cycling property. graphite anodes are improved by coating to some extent

    在實驗中發現,包覆對提高比容量,改善循環性能有利,在一定程度上可提高石墨材料的性能。
  12. Along with the doped quantity of zn increasing, the first specific discharge capacities and cycling performance of lini0. 8 - xznxco0. 2o2 reduce after first enhance

    隨著zn摻入的增加, lini0 . 8 - xznxco0 . 2o2的首次放電比容量和循環性能先提高后降低。
  13. Besides, scan rate and cycle period also affect the result ; co - deposition of dualistic oxide is a focus of research, as an element in the same group, ir is selected. deposition rate of composition is decreased by the adding of ir composition, and when the proportion of ir exceeded 50 %, composition procession can be ceased. but cooperation of ir and ru oxide can highly increase the specific capacitance of active material ; annealing treatment under a certain temperature can help to change the hydrate ru composition into mixture state ru oxide, accordingly increase the stabilization of active material

    研究表明:電解液的配製過程中,氯化釕濃度、溶液ph值、陳化時間、溶液溫度對電鍍效果均有影響,其中溶液ph值是最主要的影響因素;在儀器的使用條件探索中,理論結合實驗確定了本電鍍液體系循環伏安電勢窗的理想范圍,並發現循環伏安掃描速度和掃描周期對電鍍結果也有較大影響;混合氧化物的共沉澱是目前研究熱點,在此選用與釕同一族的銥作為共沉澱元素,銥的加入會阻礙氧化物的沉積速度,銥的例超過50 %會使沉積作用停止,但是二元氧化物的協同作用使沉積的活性物質比容量大大提高;一定溫度下退火后處理作用會使水合釕化物轉變成混合價態的氧化釕,從而提高活性物質的穩定性。
  14. Because of its high theoretical capacity ( 170 mah ? g ~ ( - 1 ) ), and feasible voltage ( about 3. 5v versus li ~ + / li ), good stability both at room temperature and high temperature, and being environmental benign and inexpensive, lifepo4 is very hopeful material as positive electrode materials for the future lithium - ion batteries material

    磷酸鐵鋰( lifepo _ 4 )因其具有高的理論比容量( 170mah ? g ~ ( - 1 ) ) ,約為3 . 5v的電壓,較好的常溫和高溫穩定性,低廉的成本和優良的環保性能,成為下一代鋰離子電池最有前途的正極材料。
  15. The influences of the calcination temperature and time, the concentration ratio of deionized distilled water to c - v _ 2o _ 5 and the agitation time on the synthesis of a - v _ 2o _ 5 were studied by orthogonal array design and the interactions between the parameters were considered. so the optimum experimental factors were obtained. lithium rechargeable battery positive electrodes based on these optimum conditions could lead to experimental cells with large discharge specific capacity and good cycling performance

    用正交實驗研究了煅燒溫度、煅燒時間、去離子水與晶態v _ 2o _ 5 ( c - v _ 2o _ 5 )的濃度和陳化時間對合成a - v _ 2o _ 5的影響,討論了這些參數間的交互作用,並獲得了最優試驗參數,以該最優試驗參數所制備的a - v _ 2o _ 5為可充鋰電池正極的實驗電池,具有較大的放電比容量和較好的循環壽命。
  16. By using an oxide that could reversibly intercalate ili instead of 0. 5 li per 3d - metal, one could increase the specific capacity of the cell by 68 %. in contrast, if one doubles the specific capacity of the negative electrode ( liq - lice ), one increases the overall specific capacity of the cell by only 12 %

    如果正極的比容量增加一倍,即每個3d金屬能嵌入1個理,那麼電池的就能增加68 ;如果負極的比容量增大1倍,那麼電池的比容量只增大12 ,所以對埋離于電池的研究主要應放在對正極材料的研究上, limn 。
  17. The effect of annealing temperature, concentration, doped cobalt and the content of catalyzer on the capacities properties of pseudo - capacitor is studied. the results show that the specific capacitance enhances by supercritical drying and it is about 262f / g in 1mol / l aqueous koh

    結果發現:超臨界乾燥將有效提高電極;以1mol / l的koh溶液為電解液所得電比容量可達262f / g 。
  18. Obviously, it is better than the material prepared by solid - state process : the first discharge capacity is 91mah / g, after 20 cycles the specific capacity is around 81. 71mah / g. besides, we tried to prepare arrays of nanowires using aao

    本文還探索了利用溶膠凝膠法在模板中合成氟磷酸亞鐵鈉納米線,發現該法制備的材料初次放電高達119mah / g ,循環20次后的放電比容量為110mah / g 。
  19. Then we prepared na2fepo4f cathode material coated with carbon by solid - state reaction. as cathode material, the first discharge capacity is 111mah / g and the capacity reduces to 102. 1mah / g after 20 cycles. ultrafine na2fepo4f powders synthesized by a sol - gel process also shows a good electrochemical performance

    隨后採用在材料表面覆碳的方法對氟磷酸亞鐵鈉進行改性,結果表明當摻碳為5 %時,電池的首次放電比容量為111mah / g ,第20次的放電比容量為102 . 1mah / g 。
  20. Presently lithium iron phosphate ( lifepo4 ) has become more and more concerned for its so many obvious characters such as few toxic 、 environmental friendly 、 low raw material cost 、 high specific capacity 、 excellent cycle performance and safety, and it is considered to be the most promising cathode material for dynamical battery

    磷酸亞鐵鋰( lifepo4 )以其無毒、對環境友好、原材料來源廣泛、比容量高、循環性能及安全性能好等顯著特點,受到了人們的廣泛關注,被認為是動力電池最有發展前途的正極材料。
分享友人
分享到 Line

分享到臉書