1)  Carbon nitride thin film
氨化碳薄膜
2)  ammoniating
氨化
1.
Effect of different annealing temperature on the fabrication of GaN nanostructures by ammoniating the Ga_2O_3/Al films on Si substrates;
氨化温度对氨化Ga_2O_3/Al膜制备GaN纳米结构材料的影响
2.
Synthesis of GaN nanowires through ammoniating Ga_2O_3/Nb thin films;
氨化Ga_2O_3/Nb薄膜制备GaN纳米线
3.
Formation of GaN films by ammoniating Ga_2O_3 films on In_2O_3 layer eeposited on Si(111) substrates;
氨化Si基Ga_2O_3/In_2O_3制备GaN薄膜
3)  amination
氨化
1.
Iminodiacetic acid diethytl ester was obtained from chloroacetic acid as raw material by amination and esterification,the esterification was crucial reaction step.
以氯乙酸为起始原料,通过氨化、酯化两步法合成了亚氨基二乙酸二乙酯。
2.
2-Amino-6-methoxyl-3-nitropyridine in 77% overall yield was synthesized from 2-chloro-5-nitropyridine by methoxylation to give 2-methoxy-5-nitropyridine,followed by amination in liquid ammonia and potassium permanganate.
以2-氯-5-硝基吡啶为原料,经甲氧基化反应得2-甲氧基-5-硝基吡啶(2),2再与液氨/高锰酸钾进行氨化反应制得2-氨基-6-甲氧基-3-硝基吡啶,总收率77%。
4)  ammoniation
氨化
1.
Study on technology for preparation of high reinforced white carbon black(silica aerogel)by ammoniation of fluosilicic acid — the by-product from phosphate fertilizer;
磷肥副产氟硅酸氨化制高补强白炭黑技术研究
2.
The Effects of Plateau Environment on Refined Salt Water Ammoniation and Ammonia Recovery;
高原环境对精盐水氨化与氨回收过程的影响
3.
Study on the Feed Value of Tail Materials of Bamboo Shoot Using Ammoniation Method;
氨化竹笋加工下脚料饲用价值研究
5)  ammonification
氨化
1.
The characteristics of nitrogen fixation, ammonification, nitrification and denitrification in coastal zones;
海岸带地区的固氮、氨化、硝化与反硝化特征
2.
Study on ammonification rate and slow release performance of urea;
尿素的氨化速度与缓释性能研究
3.
The results indicate that, with HRT of 8?h and temperature of 35℃, the COD removal rate is beyond 80%, the removal rate of TN about 8%, the ammonification rate of organic nitrat.
试验表明:厌氧附着膜膨胀床反应器处理乳品废水,在水力停留时间为8h、中温35℃条件下,COD去处率达到80%以上,对总氮的去除约为8%,出水有机氮的氨化率达70%以上,ρ(BOD)/ρ(COD)由进水的0 5提高到0 8以上。
6)  anaerobic ammoniation
厌氧氨化
参考词条
补充资料:含不饱和碳碳键聚合物
分子式:
CAS号:

性质:含不饱和碳碳键的功能聚合物主要有三种类型,第一种为聚合物中不饱和键相互共轭,构成线性共轭聚合物,包括聚乙炔型、聚芳杂环和聚苯衍生物。这类聚合物多具有电子导电和光导电特性,经掺杂处理后导电率可以达到半导体,甚至金属导体范围。是重要的导电聚合物。第二种为不饱和键表现为多核芳香烃,或者多核杂环等共轭结构,而各共轭结构相互之间相对独立,处在饱和聚合物的侧链上。这种聚合物多表现出一定光导特性,如聚乙烯基咔唑,是重要的高分子光导材料。第三种为不饱和键在聚合物中孤立存在,如含有肉桂酸酯的聚合物,这种聚合物在紫外光照射下能够发生交联反应,是潜在的负性光刻胶,可以用于印刷制版和集成电路生产。碳碳双键中的π电子还具有配位能力,与过渡金属离子构成类似二茂铁型络合物。

说明:补充资料仅用于学习参考,请勿用于其它任何用途。