1) Copperized cadmium reduction method
镀铜镉还原-重氮化偶合比色法
2) optimun techniques
铜镉柱还原法
1.
Some optimun techniques on the experiment, like the preparation ofcadmium reactor columns, adding of ammonium chloride buffer solution, peristaltic pump and current velocity, were studied in our laboratory.
本文比较了硝酸盐测定的铜镉柱还原法在两个规范中技术指标和操作工艺的差异。
3) electroless copper plating with reducing agent
还原镀铜
4) reducing-azo photometric method
还原-偶氮光度法
5) azoreduction
偶氮还原
1.
The effects of the humic substances on Azoreduction by Shewanella spp.;
厌氧条件下希瓦氏菌腐殖质还原对偶氮还原的影响
2.
Bacterial azoreduction is a process that azo dyes are decomposed into aromatic amines by the azoreductase from bacteria.
细菌偶氮还原是在细菌偶氮还原酶作用下偶氮复合物分解为芳香氨的过程,多种细菌都具有偶氮还原功能。
3.
[Objective] In order to identify the function of acpD in azoreduction,the gene was obtained from Shewanella decolorationis S12 and expressed in Escherichia coli TOP10 which showed little azoreduction activity.
利用PCR技术克隆含原有启动子的目的基因,与pGM-T载体连接后转化仅有微弱偶氮还原活性的大肠杆菌TOP10(Escherichia coliTOP10)中进行表达。
6) diazotization and coupling
重氮偶合法
1.
And the effects of SDM level, NaNO2 level, and pH in diazotization and coupling reaction system on combination ratio of SDM-BSA were observed.
采用重氮偶合法将磺胺二甲氧嘧啶(SDM)与载体牛血清白蛋白(BSA)偶联,构建SDM完全抗原,以紫外扫描光谱进行鉴定。
2.
In order to explore an effective way of synthesizing the sulfadimethoxine (SDM) immunizing antigen, the two SDM immunizing antigens were synthesized with the method of diazotization and coupling or glutaraldehyde.
为探讨合成磺胺二甲氧嘧啶 (SDM)免疫抗原的有效途径 ,采用重氮偶合法和戊二醛法分别合成SDM免疫抗原 ,并对其结构特征、光谱特征和SDM结合比进行比较。
3.
In order to explore an effective way of synthesizing the sulfamerazine(SM1) immunizing antigen,the two SM1 immunizing antigens were synthesized with the method of diazotization and coupling or glutaraldehyde.
探索了磺胺甲基嘧啶(SM1)免疫抗原合成的有效途径,采用重氮偶合法和戊二醛法分别合成SM1免疫抗原,并对其光谱特征和SM1-BSA的结合比进行了比较。
补充资料:镉比
分子式:
CAS号:
性质:指核反应堆中样品照射位置处,所测得的无镉屏蔽和有镉屏蔽这两种放射性活度之比。表征反应堆中子能谱的硬度,即热中子与超热中子的相对比例。既可用镉箔方法测定,亦可用双探测器方法测定。
CAS号:
性质:指核反应堆中样品照射位置处,所测得的无镉屏蔽和有镉屏蔽这两种放射性活度之比。表征反应堆中子能谱的硬度,即热中子与超热中子的相对比例。既可用镉箔方法测定,亦可用双探测器方法测定。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条