質子解溶劑 的英文怎麼說

中文拼音 [zhízijiěróng]
質子解溶劑 英文
protolytic solvent
  • : Ⅰ名詞1 (性質; 本質) nature; character; essence 2 (質量) quality 3 (物質) matter; substance;...
  • : 子Ⅰ名詞1 (兒子) son 2 (人的通稱) person 3 (古代特指有學問的男人) ancient title of respect f...
  • : 解動詞(解送) send under guard
  • : 動詞(溶化; 溶解) dissolve
  • : Ⅰ名詞1 (藥劑; 制劑) a pharmaceutical or other chemical preparation 2 (某些有化學作用的物品) a...
  • 質子 : [物理學] proton; uron; hydrion; merron質子泵 proton pump; 質子層 proton sphere; 質子轟擊 proton b...
  • 溶劑 : dissolvant; solvent; resolvent; solventia; menstruum
  1. In this paper, in order to study the influence of electrolyte to the lithium - ion battery performance, we assembled the lithium - ion battery using the different electrode material ( limn _ 2o _ 4, licoo _ 2 and natural graphite ) and the electrolytes which were mainly composed of lipf _ 6 as the electrolyte lithium salt and the different solvents ( including additives ) which were mixed according to the certain proportion

    本論文主要以lipf _ 6為電鋰鹽,採用不同(添加)按一定比例混合,對有機電液進行優化,與不同的電極材料( limn _ 2o _ 4 、 licoo _ 2或天然石墨)組裝成電池,研究電液對鋰離電池性能的影響。
  2. The imported transparent glaze fired at lower temperature was analysed semi - quantitatively by adopting emission spectroscope. the stripping of lead and cadmium from this transparent glaze fired at lower temperature in ceramic product was determined by atomic absorption spectroscope. the effect of chemical composition on the stripping of lead and cadmium was analysed. upon the author s opinion, the overproof lead stripping from the imported transparent glaze fired at lower temperature can only be settled by adopting lead - free glaze instead of adopting low - lead prescription. the author succeeded in developing an excellent lead - free transparent glaze fired at the lower temperature of 1000 1050. the success is based on an inquiry into the feasibility of using such new agents of fusion as li2o and sro in replacement of pbo ; and on a study of the effects of the contents of sio2 , al2o3 , b2o3and other metallic oxides on such performances of glaze as coefficient of linear expansion, fusion temperature and transparency. it is also based on an analysis of coefficient of linear expansion of blank and glaze on an analysis of coefficient of linear expansion of blank and glaze on their correlation ; and on a study of technology for preparing glaze

    採用發射光譜儀對進口低溫透明釉進行半定量分析,並用原吸收光譜儀測定其陶瓷製品的鉛、鎘的出量,分析化學成分對鉛、鎘出量的影響.結果表明,進口低溫透明釉採用低鉛配方不能決鉛出量的超標問題,只有採用無鉛釉才能決.探討用氧化鋰和氧化鍶等新型熔完全代替氧化鉛的工藝,研究釉料中氧化硅、氧化鋁、氧化硼和各種金屬氧化物的含量,對釉的線膨脹系數、熔融溫度和透明度等性能的影響.分析坯料、釉料的線膨脹系數及其相互關系和釉料制備的工藝,研製出優的1000 1050低溫無鉛透明釉
  3. When the molecule is solvated in the solution, the solutions have effects on the structure and optical properties of the molecule. the solvent effect is introduced in the third chapter

    當分中時,將影響分的幾何結構和光學性,第三章我們介紹了效應。
  4. The mass specific capacitance of anthracite - based hsaac is smaller in organic electrolyte than that in aqueous electrolyte, because the diameter of solvated ions in the former is bigger and its electrical conductance smaller

    量比電容。這一現象的產生與有機電液中化離的直徑較大、電導率;較低有關。
  5. When molecules are solvated in the solution, the solute molecule polarize solvent molecules around it and this gives rise to a field reaction field acting back - ob - the molecule, which will have effects on the structure of solvated molecules and their optical properties

    當分中時,將使發生極化現象,被極化的反過來又會產生一個反應場作用於,從而影響的幾何結構和光學特性。
  6. 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,不同堿金屬鹽對電電導率的影響因其陽離半徑、晶格能、離淌度以及在電中的度的不同而不同;電導率的鹽濃度依賴性因電的離傳導方式不同而明顯呈現雙峰形;增塑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的離傳導方式不同而呈現不同的規律。
  7. 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,採用bellcore制膜法制備了pvdf - hfp聚合物電膜,通過改變增塑dbp的含量、的種類及的含量制備了不同條件下的聚合物電膜,分別研究了增塑含量、含量等對聚合物電膜的吸液率、表面形貌、機械性能、離電導率、電化學穩定窗口等的影響;對制備工藝進行了優化,研究了各種添加如pc 、 ec 、 dbp及納米al2o3對聚合物電膜的離電導率、吸液率等性能的綜合影響。
  8. 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dmac及nmp制備了聚合物電膜,在增塑體積比為20 %時,聚合物膜的離電導率均能達到10 - 3s ? cm - 1 ,且以nmp為的聚合物膜的電導率比以dmac為的電導率高出大約35 % 。
  9. 8 - 1. 2g / min, and collection efficiency achieve 8 - 10 % under these parameters. through the study on the dispersion process of the nanoparticle tio2 in water, the author finds out that whisk time, dispersant types, dispersant concentration, dispersing time, ph value, temperature and electrolyte concentration have significant influence on dispersing effects. through contrastive and orthogonal experiments, the author obtains that composite dispersants have better results than single dispersants

    研究表明,液料等離噴塗制備的納米tio :顆粒平均粒徑為10 ~ 50nln ,其晶型以銳欽礦為主,且隨著電弧功率的增大,銳欽礦含量減少;在本次實驗工藝參數下,收集速率為0 . 8一1 . 29 / min ,收集效率為8一10 % o通過對納米ti02顆粒在水介中的分散性研究,發現機械攪拌時間、分散種類及濃度、分散時間、 ph值、液溫度和電濃度對納米tio :顆粒的分散穩定性有很大的影響。
  10. This molecular mouthful has the rare ability among solvents of being able both to dissolve cellulose and to act as an electrolyte ? that is, a chemical that can carry current between the electrodes of a battery in the form of charged molecules, or ions

    它的本領遠大於其它,在纖維素的同時還能夠充當電液,即一種能夠在電池的電極間以充電的分或離的形式傳遞電流的化學物
  11. This paper reviews the application of ionic liquids in polymer materials processing areas such as polymer electrolyte, the dissolution of polymer in ionic liquids, polymerization reactions in ionic liquids and plasticizing of polymer in ionic liquids

    綜述了離液體在聚合物材料加工中的應用研究進展,主要包括聚合物電的合成應用研究、聚合物在離液體中的、以離液體為的聚合反應以及離液體作為聚合物的增塑
  12. The analytic results of the effects on the micromorphological structure of the film by the electrochemical condition ' s showed that the carbon is apt to improve the boundary combination between the scfs and the surface of the cathode and the seperation of the films, and that the micromorphological structure of the mpgcfs is greatly affected by the dring and the power voltage, which remarkably affluence ion move in swelling cathode film, and that higher temperature and concentration of cu2 + in the medium solution are also advanagable to the deposition of cu in scfs. the plot of deformation behavior of mpgcfs showed that the maximum strench ratio decreases and the brittleness increases due to the existence of the metal phase, and that the strengh trend of the composite films is fistly up and down followed with the content of metal phase because of the change of the role of the metal phase from acting as the physical cross - linking to weakening the films due to destroying the whole structure of the polymer

    另外它作為基體的另一個突出的優點是制備的脹復合膜( scf )中的與電液中的相同都是水,克服了以前膜內外不同之間擴散的問題,結果使得電流最終趨於一種穩態,因此可以更好實現用電化學條件來控制mpgcf的形態結構;硬石墨材料的多孔的結構和石墨本身的結構性能特點使得碳作為陰極材料時有利於漲復合膜( scf )與電極表面的結合以及膜的剝離,因此是作為陰極的理想材料;電化學條件中的乾燥程度和電壓能夠明顯的影響離在膜內的遷移,從而對mpgcf的形態結構造成較大的影響;而提高反應溫度和增大電液中銅離的濃度也有利於銅在膜中的沉積生長。
  13. The electrolyte is an important ingredient for the lithium - ion battery which composed of the lithium salt and the solvent. organic solvent is an important constituent of the electrolyte and it plays an important role to dissolve the electrolyte lithium salt

    液是鋰離電池的重要組成部分,由電組成,其中有機是鋰離電池電液的重要組成部分,承擔著鋰鹽的重要作用。
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