1) dimethylglyoximatocobalt (Ⅱ)
丁二酮肟-钴(Ⅱ)
2) dimethylglyoxime
[,dai,meθil,ɡli'ɔksaim]
丁二酮肟
1.
Determination of Palladium in Ore after Separation and Preconcentration with PVC-Dimethylglyoxime Double Membranes Resin by Atomic Absorption Spectrometry;
PVC-丁二酮肟复膜树脂分离富集原子吸收法测定地质样品中的钯
2.
Study on the measurement of the trace amount of Nickel in copper alloy -Separation of cuprous iodide-Dimethylglyoxime spectrophotometry;
铜合金中痕量镍的测定——碘化亚铜分离一丁二酮肟分光光度法
3.
Study on the catalytic stripping voltammetry of trace cobalt at the dimethylglyoxime-modified carbon paste electrode via plating mercury in situ;
丁二酮肟修饰碳糊电极同位镀汞催化溶出伏安法测定痕量钴的研究
3) diacetyldioxime
[daiæsitildai'ɔksaim]
丁二酮肟
1.
Anodic Stripping Voltammetric Determination of Bismuth with Diacetyldioxime-modified Carbon Paste Electrode;
丁二酮肟修饰碳糊电极阳极溶出伏安法测定痕量铋
2.
Determination of Trace Pb(Ⅱ)with Glassy Carbon Electrode Modified with Diacetyldioxime by Differential Pulse Stripping Voltammetry;
丁二酮肟修饰玻碳电极差分脉冲溶出伏安法测定痕量铅
3.
Diacetyldioxime Rebound Qualifying Promote Carbon Electrode Measurement Trace Cadmium by Differential PulseStripping Voltammetry;
丁二酮肟修饰玻碳电极差分脉冲溶出伏安法测量痕量镉
4) dimethyl glyoxime
丁二酮肟
1.
Study on anodic adsorptive voltammetry of palladium-dimethyl glyoxime complex at a carbon paste electrode;
钯(Ⅱ)-丁二酮肟络合物在碳糊电极上的阳极吸附伏安法研究
2.
Preparing of Dimethyl Glyoxime Modified Carbon paste Electrode and Determination of Copper(Ⅱ);
丁二酮肟修饰碳糊电极的制备及对Cu(Ⅱ)的测定
6) nickel dimethylglyoximate
丁二酮肟镍
1.
Rod-like nickel dimethylglyoximate[Ni(dmg)2]particles were prepared from aqueous solution in this work.
以溶液法合成棒状丁二酮肟镍[Ni(dmg)2],采用XRD和UV-Vis吸收光谱表征其结构,用显微镜和SEM观察其形貌,研究了pH值、温度、超声和表面活性物质对产物形貌的影响。
补充资料:2-丁酮肟
分子式:C4H9NO
分子量:87.12
CAS号:96-29-7
性质:无色油状液体。熔点-29.5℃沸点152-153℃,59-60℃(2kPa),相对密度0.9232(20/4℃),折光率1.4410。能与醇、醚混溶,溶于10份水中。
制备方法:由丁酮和盐酸羟胺反应而得。也可以由丁酮与硫酸羟胺反应。
用途:主要用于醇酸树脂涂料防结皮剂和硅固化剂。该品作为防止结皮的抗氧剂使用,比丁醛肟、环己酮肟的效果好。
分子量:87.12
CAS号:96-29-7
性质:无色油状液体。熔点-29.5℃沸点152-153℃,59-60℃(2kPa),相对密度0.9232(20/4℃),折光率1.4410。能与醇、醚混溶,溶于10份水中。
制备方法:由丁酮和盐酸羟胺反应而得。也可以由丁酮与硫酸羟胺反应。
用途:主要用于醇酸树脂涂料防结皮剂和硅固化剂。该品作为防止结皮的抗氧剂使用,比丁醛肟、环己酮肟的效果好。
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