传统的锂离子以及金属氢化物镍蓄电池中所含有的活性物质被放置在一个薄膜中。
Conventional lithium-ion or nickel metal hydride rechargeable batteries contain active material that is placed into a thin film.
第二部分则主要研究了驯化活性污泥对高盐度、高金属离子浓度的实际废水的处理过程。
The other is the study of domesticated activated sludge disposing wastewater containing high salinity and high concentrations of metal irons.
研究了湿化学法从废旧锂离子电池回收正极活性材料中有用金属的工艺。
The process of reclaiming valuable metals in positive active materials from spent lithium ion batteries was studied.
二氢杨梅素抗氧化活性优异,其作用机制是通过螯合金属离子,从而消除其对自由基氧化的催化作用。
Dihydromyricetin has excellent antioxidant activity. Its antioxidant activity embodies by chelating metal ion and clear the catalysis to free radical oxidation.
在许多天然酶中,由于金属离子的存在,对其催化活性有较大的影响。
Significant effects can be found in the catalysis activities of natural enzymes due to the presence of metal ions.
另外,金属离子对这两种酶活性的影响也趋于一致。
Moreover, the effects of metal ions on the two enzymatic activities were also similar.
金属离子可以是辅助因素的催化中心,也可以帮助形成酶活性所必须的构象。
The metal ion may be the catalytic center of the cofactor, or it may serve to bind the enzyme and substrate together to hold the enzyme in a catalytically active conformation.
生命活动是由许多生物活性物质参加的各种化学反应的结果,金属离子就是其中重要的一种。
The activity of life is an effect of different chemical reactions by lots of biological active substances, and metal ion is one important kind of them.
重点概述了金属离子型无机抗菌剂的活性组份、载体、抗菌机理及评价指标。
A special attention is paid to the active component, carrier, antibacterial mechanism and assessment index mark of inorganic antibacterial agent.
有机络合剂使得土壤溶液中可溶性与离子态重金属的浓度改变,反映了其活性与可利用性较对照不同。
The change of soluble and ionic heavy metal concentration in soil solution showed that, the activity and plant availability of heavy metals was higher than that of the check.
按照已有的酶活性中心的金属-氨基酸侧链配位和空间关系,设计合成多齿配体,并使配体和金属离子通过配位作用形成配合物。
They are designed according to the special relations and coordination of metal-amino acid side chain in the active centre in known enzymes.
该体系是由膨润土,混合金属氢氧化物、阳离子聚合物、非离子表面活性剂等组成的。
This system consists of bentonite, mixed metal hydroxide, cationic polymer and non-ionic surfactants etc.
本文综述了阳离子表面活性剂在纺织、金属、材料、涂料等工业领域中的应用新进展。
The new development of application of cationic surfactant in modern industry production fields such as textile, metal, material and paint so on, is reviewed in this article.
金属离子作为金属蛋白中重要的辅因子,承担着活性中心或结构中心的作用。
As the most important cofactors of proteins, metal ions are responsible for the active or structural sites in metalloproteins.
柠檬酸与针铁矿交互作用时会形成针铁矿-柠檬酸的复合胶体,增强对重金属活性离子的吸附,降低重金属毒性。
The adsorption will be enhanced by the goethite-citric acid compound colloid which from the citric acid and goethite interaction.
然而,两亲嵌段共聚物的传统的制备方法是有机金属催化剂催化的活性离子聚合法,故产物中难免会残留有毒的有机金属催化剂。
At present, block copolymers containing PCL and PEG chains are mainly prepared by active ionic polymerization using traditional chemical catalysts, some toxic organometallic compounds.
本文综述了表面活性剂存在下金属离子与取代苯基荧光酮的显色反应研究情况。
A review is presented on the chromogenic reactions among metals ions, substituted phenylfluorones and surfactants.
主要研究了阴离子- 阳离子表面活性剂的复配及该体系在水基金属清洗剂中的应用;
The mixing of anionic-cationic surfactant and the application of this system in the field of aqueous cleaning agents are studied.
阳离子表面活性剂,非离子表面活性剂,杀菌剂,天然香料和金属缓蚀剂等。
Nonionic surfactant, cation surfactant, antiseptic inartificial spicery. and metal corrosion inhibitor.
结果水母毒素的溶血活性对温度敏感,随着浓度的提高而增大,并且依赖于Ca2+,Mg2+等二价金属离子的存在。
ResultsThe haemolytic activity was temperature-sensitive, and improved with the concentration increase. The presence of Ca2+, Mg2+ wass necessary for haemolytic activity.
以非离子表面活性剂四氧乙烯基正十二烷基醚与氯铂酸水溶液构建层状溶致液晶,通过电沉积技术制备了金属铂纳米线。
Platinum nanowires were electrodeposited in a lamellar lyotropic liquid crystal, composed of nonionic surfactant tetraethylene glycol monododecyl ether and H2PtCl6 aqueous solution.
稀土金属离子及其配合物具有促进动植物生长、显著的抗炎、抗菌、抗凝血和抑制癌细胞生长等生物活性。
Lanthanide ions and their compounds attracted extensive attention because of their significant anti-inflammatory, antibacterium, and other biological activity.
稀土金属离子及其配合物具有促进动植物生长、显著的抗炎、抗菌、抗凝血和抑制癌细胞生长等生物活性。
Lanthanide ions and their compounds attracted extensive attention because of their significant anti-inflammatory, antibacterium, and other biological activity.
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