活化氫離子 的英文怎麼說

中文拼音 [huóhuàqīngzi]
活化氫離子 英文
labilized hydrogen ion
  • : Ⅰ動詞1 (生存; 有生命) live 2 [書面語](救活) save (the life of a person):活人無算 (of a goo...
  • : 名詞[化學] (氣體元素) hydrogen (h)
  • : Ⅰ動詞1 (離開) leave; part from; be away from; separate 2 (背離) go against 3 (缺少) dispens...
  • : 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...
  • 活化 : [化學] activation radioactivation; activate活化處理 activating treatment; 活化分析 [核物理] activ...
  • 離子 : [物理學] ion
  1. With the increase of concentration of aqueous extract from peganum multisectum increased, root vigor, the contents of chlorophyll, soluble protein and nucleic acid in roots and shoots of alfalfa seedlings decreased, while the activities of protease and nuclease, the contents of o2 ( superscript - ), h2o2 and malondiadehyde ( mda ) increased, the activities of superoxide dismutase ( sod ), catalase ( cat ) and peroxidase ( pod ) first increased and then decreased

    幼苗根系力和葉綠素、可溶性蛋白質、核酸含量隨水浸液濃度的提高而降低,蛋白酶和核糖核酸酶性及超氧陰( o2 (上標- ) ) 、 h2o2和丙二醛( mda )含量則增加,超氧物歧酶( sod ) 、過氧酶( cat )和過氧物酶( pod )性呈先升后降變
  2. It uses a combination of a photosensitizing agent silicon - pathalocyanine, pc4 and strong visible light. first of all, the photosensitive pc4 is loaded into the cancer cells. when the pc4 is exposed to bright light, it increases the production of no and other oxidative species such as oh and o2 inside the cells, which leads to cell apoptosis disintegration and even cell death

    首先,將光敏感性的pc4注入病人身體內,由於pc4染劑非常容易和不健康的細胞結合,這些不健康的細胞例如癌癥細胞在結合pc4性染劑后且又曝露在亮光下時,細胞內一氧氮no及其它氧物如oh -或過氧o2 -在細胞內的產生量會增加,因而導至此不健康的細胞萎縮,甚至死亡2 。
  3. In this paper, high concentration vanadium electrolyte has been prepared by electrolysis, graphite and graphite felt electrode also have been made, moreover, the electeodes have been activated, and based it, a lab - level vanadium battery has been manufactured. cyclic voltammetry, current step and invariable current charge / discharge method have been used to study the reactive mechanism of electrolysis, of vanadium electrode reaction and of electrode activation, also to investigate maiden charge process and electricity performance of vanadium battery. the influence of electrode activation and trace stibium ion, indium ion added into vanadium electrolyte has been discussed

    利用循環伏安法、恆電流階躍法、恆電流充放電循環等電學方法,探討了電解法制備釩液流電解質的反應機理,考察了釩的電極反應、電極表面處理對釩的電極反應的影響,結合電極反應分析了的機理;還考察了釩電池初次充電過程及恆流充/放電循環的電性能;並且考察了添加銻、銦對釩電池電性能特別是析行為的影響。
  4. Al - doped zno thin films are emerging as an alternative potential candidate for ito flims recently. al doped zno thin films also can obtain a tunable band gap. especially, zno : al thin films with high c - axis orientated crystalline structure along ( 002 ) plane are potential device applications in broadband ultra - violet

    Al摻雜的zno薄膜不僅具有與傳統ito薄膜相比擬的光電性質,而且原材料豐富、價格低、無毒、沉積溫度低、熱穩定性高,在體環境中具有很高的學穩定性,不易導致太陽能電池材料性降低。
  5. By increasing the h2 dilution ratio, it is found that atomic hydrogen can selectively etch amorphous phase and stabilize crystalline phase. from the study on the distance from substrate to catalyzer, choosing a proper distance can ensure the gas fully decomposed, while a relatively low substrate temperature can cause the nanocrystalline particles to lose mobility and keep their sizes. the pre - carbonization process can enhance the nucleation density and make the growth of high quality nanocrystalline p - sic films much easier

    實驗結果表明:隨著工作氣壓的減小,薄膜的晶粒尺寸有所減小;通過提高氣稀釋度,利用原在成膜過程中起的刻蝕作用,可以穩定結晶相併去除雜相;選擇適當的熱絲距能保證反應氣體充分分解,又使襯底具有較高的過冷度,是形成納米薄膜的重要條件;採用分步碳法可以提高形核密度,有利於獲得高質量的納米- sic薄膜;襯底施加負偏壓可以明顯提高襯底表面的基團的性,因負偏壓產生的轟擊還能造成高的表面缺陷密度,形成更多的形核位置。
  6. The authour investigate the dosing conditions and effect of the pac to the huanghe water - source, which includes the following four parts : the selection of the pac ; the confirmation of dosing scheme and effect of the pac ; the research of application of potassium permanganate in combination with pac ; the research of the pac ' s modification and the modified effectiveness. the experiment is mainly carried out on the pilot system in the jieyuan water plan of tianjin. the results of the reseach include the following : l ) the pac from zunhua plant is selected as the better carbon for the source water of tianjin through the experiment ; 2 ) through the pilot experiment we conclude that the pac ' s best adding point is the mixing tank and the better dose is 10mg / l, on which the codmn of filtered water can be decreased to 40 % and the effluent have no problem of odour and color ; 3the adsorbing experiment show that pac mainly adsorb the organic matters which molecular wt., distribution between 500 and 3000, and can adsorb organic matters whose molecular wt., distribution are bigger than 6000 if the dose of it is adequent ; 4 ) pac together with potassium permanganate can remove the organic matter more effectively than each of them alone, and reduce the rising trend of turbidity of the flotation ' s effluent due to adding pac ; 5 ) the thesis made a research on the surface properties and the adsorbing capability of the modified carbon by oxidizer : the modified carbon with 20 % h2o2 can remove more organic pollutants than the untreated one by 12 % when we add a higher dose of coagulant ; 6 ) the modification of reduction and loading metal ions are also sttldied, and drow the following conclusions : the modified carbon with 5 % ammonia can enhance the organic matter ' s removal effectiveness by 10 % to the tianjin source water than the untreated one, and the modified one with loading metal ion remove the organic matters from the tianjin source water better ( 8 % ) than the untreated one due to the strong affinity betwween the humic acid and copper ion

    本文的實驗主要是在天津芥園水廠的中試系統上完成的,論文的成果和結論主要包括: 1 )通過靜態實驗選定河北遵性炭廠生產的煤質炭為適合天津原水的炭種; 2 )中試實驗確定粉末性炭的較佳投加點為混合池投加,較佳投加量為10mg l ,此時可使濾后水的cod _ ( mn )降低40 ,且可較好地控制濾后水的嗅味和色度; 3 )初步確定粉末性炭對原水中有機物的吸附主要集中在分量在500 - 3000范圍內,投量增大時可吸附部分分量大於6000的有機物4 )中試實驗表明:粉末性炭與高錳酸鉀聯用可取得較兩者單獨應用時對有機物更好的去除效果,且對因投加粉末性炭而造成的氣浮出水濁度升高有一定的改善作用; 5 )研究並初步確定氧改性對粉末性炭表面性質和有機物的去除效果的影響:粉末性炭的氧改性會使其表面的酸性官能團大量增強,表面極性增加;經20的過氧改性的性炭在增大混凝劑投加量( fecl _ 3投量為15mg l )時對有機物的總體去除效果較原性炭提高12 , 1次氯酸鈉改性性炭對有機物的去除效果較原性炭提高6 ; 6 )研究並初步確定還原改性、負載金屬對原水中有機物的去除效果的影響:經5氨水改性的性炭可提高天津源水中有機物的去除率達到10 ;負載銅后的性炭可提高對腐殖酸類物質的去除能力,一般可提高8左右。
  7. The second stage is stage of the matter transfers the activated matter, that is to say, minerals build up their surface area after passing though physical weathering, maifan stone form a lot of clay mineral, oxide, oxhydroxide and collide mineral after passing though chemical weathering. it makes nutrition elements transform from crystal state to adsorption state and it expands the activation of mineral, in the latter stage, it makes maifan stone have many special physicochemical adjusting character, for example, ph and foi bi - directional absorptive and ion exchange character, so these characters expand maifan stone ' s uses

    第二階段為物質轉變的性階段,即通過物理風增大表面積、通過學風形成大量粘土礦物、氧物和物及膠體礦物,使營養元素由結晶態轉變為吸附態,從而大大增加了其性。在後一過程中麥飯石還形成了許多特殊的物理學性質,如ph值和f _ ( o2 )的雙向調節性,吸附性和交換性等,從而擴大了其用途。
  8. It was found that in the simulated physiological solution, the hydrogen bindings between some amido groups in the mp - 11 molecules are decomposed and the mp - 11 dimers become monomers. it induces the increase in the contents of the a - helical and ( 3 - turn conformation, the decrease in the content of the random coil conformation of mp - 11 as well as the increase in the exposure extent of the heme group. therefore, the reversibility of the electrochemical reaction and the electrocatalytic activity of mp - 11 for h2o2 reduction increase comparing the situation in the aqueous solution

    發現在模擬生理條件下, mp - 11分的多肽鏈上一些酰氨基的鍵發生了解,使部分雙聚的mp - 11分變成單體分, mp - 11分二級結構中-螺旋和-轉角結構的含量增加,無規捲曲結構含量降低,導致了mp - 11分中血紅素的暴露程度變大,因此mp - 11電學反應的可逆性和對h _ 2o _ 2還原的電催性比在水溶液中有所增加。
  9. Methods : the method was based on the adsorption of organic solvents on activated charcoal, desorption with cs2 and analysis of the abtained solution by ffap capillary gc with fid detector

    方法:用性碳吸附管採集空氣中有機溶劑, cs2解吸,經ffap毛細管色譜柱分,以火焰檢測器檢測。
  10. Effect of alkali metals addition on the interaction between active constituents and alumina support of ptsn catalysts for dehydrogenation of propane

    堿金屬對丙烷脫劑中性組分與載體間作用的影響
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