氯酸根

  • 网络chlorate
氯酸根氯酸根
  1. 在电子活度(pε)和pH优势区域图上,建立了包括氯酸根、二氧化氯、亚氯酸、亚氯酸根、次氯酸、次氯酸根、氯气和氯离子的氯体系多元平衡模式;

    The predominance area diagram of electron activity ( p ε ) as a function of pH for chlorine system with chlorate ion , chlorine dioxide , chlorous acid , chlorite ion , hypochlorous acid , hypochlorite ion , molecular chlorine and chloride ion has been constructed .

  2. 圆形纸层析法的研究Ⅱ.氯酸根、溴酸根和碘酸根的分离

    Studies on circular paper chromatography ⅱ . the separation of chlorate , bromate , and iodate ions

  3. 罗丹明B荧光猝灭法测定水中痕量亚氯酸根

    A Fluorescence Quenching Method for the Determination of Trace Chlorite in Water with Rhodamine B

  4. 以二茂铁季铵盐为活性材料的PVC膜高氯酸根电极的研制

    Study On PVC Membrane Perchlorate Selective Electrodes Using Ferrocene Quaternary Ammonium Salts as Electroactive Material

  5. 本文所用的高氯酸根离子选择性电极是用三辛基十六烷基高氯酸季铵和PVC粉制备的。

    The perchlorate ion selective electrode prepared from cetyl trioctyl ammonium perchlorate and PVC is studied and developed .

  6. 用电化学方法制备了分别以对甲基苯磺酸根(TOS-),高氯酸根(ClO4-)和氯离子(Cl-)掺杂的聚吡咯(PPy)膜。

    Conducting polypyrrole films ( PPy ) doped with p-toluenesulfonate ( TOS - ), ClO-4 , and Cl-were electro-chemically prepared , respectively .

  7. 中心Cu离子分别与两个DPQ配体上的4个吡啶氮原子以及高氯酸根上的一个氧原子配位,其配位几何构型为理想四方锥。

    The central Cu ~ ⅱ atom is penta-coordinated by four nitrogen donors of the pyridine rings of two DPQ and an oxygen atom of the perchlorate , and the coordination geometry of Cu ~ ⅱ could be considered as an ideal square-pyramidal environment .

  8. 亚氯酸根ClO-2对反应速率的影响不大。

    Effect of chlorite ion on the reaction rate was insignificant .

  9. 微流动注射化学发光检测系统测定自来水中次氯酸根

    Micro-flow injection chemiluminescence mensuration system for detection of hypochlorite in tap water

  10. 褪色光度法测定氯酸根离子

    Determination of Trace Chloric ion by Decolour Spectrophotometric Method

  11. 导致足丝溶解的有效成分是次氯酸根。

    The effective ingredient dissolving byssus is hypochlorite ion .

  12. 次氯酸根能够直接氧化鲁米诺产生化学发光。

    Hypochlorite can directly oxidize luminal to produce chemiluminescence .

  13. 研究了电解体系内氧化剂,比如羟基自由基、过氧化氢及次氯酸根等的生成情况。

    Oxidants such as hydroxyl radical , hydrogen peroxide and hypochlorite ion were determined .

  14. 离子色谱法-抑制型电导检测城市污水中的高氯酸根

    Determination of Perchlorate in Urban Waste Water by Ion Chromatography with Suppressor Conductivity Detection

  15. 研究了十六烷基吡啶-高氯酸根及十六烷基吡啶-高碘酸根离子选择电极性能,讨论了电极响应机理。

    The response mechanism of cetylpyridinium perchlorate and cetylpyridinium periodate ion-selective electrode has been studied .

  16. 微波浓缩-离子色谱法测定饮用水中的痕量溴酸根和高氯酸根

    Determination of Trace Level of Bromate and Perchlorate in Drinking Water by Ion Chromatography with Microwave Preconcentration

  17. 高氯酸根会破坏人体甲状腺的功能,影响人类正常的新陈代谢和生长发育。

    Perchlorate will destroy the human thyroid function , thus normal human metabolism and growth will be affected .

  18. 钙离子对高氯酸根去除的有利影响,也通过连续实验得到了证实。

    The positive effect of Ca2 + on perchlorate removal performance was further corroborated in subsequent continuous column tests .

  19. 结果表明,改性产物表面的季铵阳离子基团能较好地吸附废水中的高氯酸根;

    The results show that the quaternary ammonium cationic group of the modified products can better treat perchlorate in water .

  20. 因此为了探究这一科学问题,在本研究中分别采用了三种不同导电性的氧化铁来探究其对于高氯酸根微生物还原降解情况的影响。

    Three different conductive oxide were used in this study to explore the effects of perchlorate reduction by microbial degradation .

  21. 开发新型、高效的次氯酸根探针无论在生物检测领域还是在环境分析领域都具有重要意义。

    It is of great significance to develop new luminescent probes for detecting hypochlorous acid in the field of bioscience and environmental chemistry .

  22. 本文报导了应用高氯酸根选择电极监测高碘酸根浓度改变,从而进行亚硝酸根测量的催化动力学电位分析法。

    This reported kinetic analysis of nitrous ion is based on the monitoring of the concentration change of periodate ions by means of the perchlorate selective electrode .

  23. 高氯酸根来源于高氯酸盐的水解,其广泛存在于环境中,既有天然形成的也有人为制造的。

    Perchlorate is an anion that originates from the dissolution of the salts of perchloric acid . It is widely present in the environment occurring both naturally and through manufacturing .

  24. 采用了两种不同的电子供体,分别是乙酸钠和氢气,发现这两种电子供体存在时均造成高氯酸根浓度的降低,实验效果相差不大。

    Two different electron donor used , sodium acetate and hydrogen , respectively , were found to result in lower concentrations of perchlorate in the presence of the two electron donor .

  25. 基于次氯酸根能够直接氧化鲁米诺产生化学发光的原理,结合微加工技术,建立了微流动注射化学发光检测系统测定自来水中次氯酸根的方法。

    A micro-flow injection chemiluminescence detection system fabricated in polymethyl methacrylate ( PMMA ) ( 50 mm × 40 mm × 5 mm ) for detection of hypochlorite in tap water is described , based on the direct chemiluminescence reaction of hypochlorite and luminol .

  26. 水中二氧化氯、氯、亚氯酸根和氯酸根区分测定法

    Determination Method of Chlorine Dioxide , Chlorine , Chlorite , Chlorate in Water

  27. 氯离子和碘酸根离子分析新方法及应用研究

    New Protocols for Analysis of Chloride Ion and Iodate Ion and Their Application

  28. 通过对反应前后体系中氯离子浓度的变化,我们试着将高氯酸根去除分为生物降解和物理化学去除并各自定量化。

    According to the increase of chloride concentration , the respective contribution of biodegradation and physicochemical perchlorate removal was differentiated and evaluated .