氧化还原电势

  • 网络redox potential;ORP
氧化还原电势氧化还原电势
  1. 过表达NrfA蛋白不足以诱发NO2-在年轻细胞中的初始利用;在对数生长期,电子流通过对末端还原酶及通路的选择而更倾向于氧化还原电势高的电对。

    Overexpression of NrfA is insufficient to induce nitrite utilization in young cells . During exponential phase , electron flux has a preference towards terminal reductases and pathways for electron acceptors with more positive redox potential .

  2. 联吡啶钌对催化剂性能有一定的影响,氧化还原电势满足电势钳制范围要求。

    Bipyridine ruthenium have certain influence on catalyst performance , but the redox potential can meet the range of potential clamping requirements .

  3. 运用DFT方法进行量子化学计算研究,得到了NQ、NQS和部分芳香胺的标准氧化还原电势、气相电离能、电子亲和势和苯胺上N原子的电荷密度分布。

    Standard redox potentials , gas phase ionization / affinity potentials and charge density distributions of some reagents were calculated by DFT method . As sensitizers , NQS is more active than NQ .

  4. 食品的氧化还原电势也影响食品的变质。

    The oxidation-reduction potential of a food also influences spoilage .

  5. 肉制品尤其是当肉汤被蒸煮时,它们经常有较低的氧化还原电势。

    When meat products , especially broths , are cooked , they often have lower oxidation-reduction potentials .

  6. 高氧化还原电势和缺乏还原条件,使得好氧菌和兼性厌氧菌进行分解或腐化过程。

    The high oxidation-reduction potential and lack of reduced conditions permits aerobes and facultative anaerobes to contribute to the decomposition processes .

  7. 细胞的氧化还原电势增高,细胞膜上离子通道被激活,H+和Ca2+内流,Cl-外流;

    The redox potential of cells was promoted rapidly , and ion channels in cell membrane were activated leading to H + , Ca 2 + influx and Cl - efflux which caused alkalization of medium .

  8. 结果表明,诱导前红豆杉细胞处于相对稳定的生长态势,细胞完整,细胞器发达;氧化还原电势较低,活性氧相关酶系统相对稳定,细胞初生代谢旺盛,紫杉醇合成速率很低。

    Cells before elicitation were in a good state of growth including integration of cells , abundance of organelle , stability of active oxygen system , low redox potential of cells , flourishing of primary metabolism and low rate of taxol biosynthesis .

  9. 监测氧化&还原电势优化工艺反应过程

    Optimize Technical Processes by Monitoring ORP

  10. 试论电极电势与氧化电势,还原电势

    About electrode Potential with oxidation potential and reduction Potential

  11. 本文分析了氧化电势,还原电势和电极电势的形成过程.并指出它们之间的联系与区别.旨在明确电极电势的实质,澄清人们在三者之间的模糊认识。

    Present article analyses the course of forming oxidation potential 、 raductionpotential and electrode potential , and Points out the relatio and difference between them .

  12. 菲啰啉铁对催化剂催化活性的影响相对较小,其氧化还原可逆性和电势平衡电势范围基本符合燃料电池用氧化还原电对的基本要求,具备成为燃料电池氧化还原穿梭电对的潜力。

    The effect of phenanthroline iron on the catalytic activity is relatively small , and the redox reversibility and equilibrium potential range are in line with the basic requirements of the fuel cell redox shuttle , has and thus it is a promising fuel cell redox shuttle .

  13. 在提出广义氧化还原新概念的基础上,利用广义氧化还原电极电势判断无机化学反应的方向、顺序和计算反应的平衡常数,使溶液中无机化学反应系统化。

    The new concept of generalized oxidation and reduction is advanced . Generalized electrode potentials are used in deciding the direction , the order and calculating equilibrium constants of chemical reactions . Moreover inorganic chemical reaction in solutions are systematized .