1) metal-chelated magnetic nanobead
金属螯合磁珠
1.
A novel hydrothermal route has been developed to produce metal-chelated magnetic nanobeads which help to study serum peptides profiles by matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) mass spectrum.
并通过质谱验证该金属螯合磁珠能有效提取血清中的多肽,该磁珠为质谱进行疾病诊断解决样品制备的技术难题,具有广阔应用前景。
2) metal-chelated
金属螯合
1.
Preparation of a new immobilized Cu~(2+)-IDA metal-chelated affinity membrane and study of its adsorption capacity of protein;
新型Cu~(2+)-IDA金属螯合亲和膜制备及吸附蛋白质性能的研究
2.
Immobilized metal-chelated affinity chromatography(IMAC) column sorbents matched with Zn2+ were prepared for purifying glutathione(GSH) using chitosan spherule as substrate.
以谷胱甘肽的酵母抽提液为原料,用自制的以壳聚糖小球为载体、Zn2+为配基的金属螯合亲和层析柱分离纯化谷胱甘肽(GSH)。
3) chelated metal
螯合金属
1.
Objective To study the stable chelated metal polyamine antibacterial cotton fibre.
目的研究稳定性螯合金属多胺型抗菌棉纤维。
4) metal chelating
金属螯合
1.
Such immobilized IDA-Cu2+ metal chelating affinity membranes were used to purify bovine serum albumin (BSA).
为获得既具有良好机械强度和化学稳定性又具有大量活性官能团的金属螯合亲和膜介质,以尼龙膜为基膜,采用环氧氯丙烷活化共价偶联壳聚糖,制备尼龙-壳聚糖复合膜,膜上偶联壳聚糖的含量达98。
5) MB-IMAC-Cu2+
铜螯合纳米磁珠
1.
Objective:To explore a standardized profiling of urine peptides in sample collection,preparation and detection by magnetic bead separation(MB-IMAC-Cu2++)and matrix-assisted laser desorption/ionization time-of-flight(MALDI-TOF/TOF) mass spectrometry(MS).
目的:利用铜螯合纳米磁珠(MB-IMAC-Cu2+)系统联合基质辅助激光解析电离-飞行时间质谱(MALDI-TOF/TOF MS)建立一套稳定、可行的技术路线,对尿液中相对分子质量(Mr)<10000的多肽进行系统研究,包括从样品的采集、存放、提取、检测在内的各个步骤。
6) metal chelate
金属螯合物
1.
The presentation were focused on the surface activity,emulsifying power,dispersing power of metal chelates formed by EDTA monoalkyl esters and EDTA monoalkyl amides together with various different metals.
介绍了螯合性表面活性剂的国内外发展历史和早期研究成果,尤其是不同烷链长度EDTA单烷基酯和EDTA单烷基酰胺与不同种类金属离子生成的金属螯合物的表面活性、乳化能力、分散能力,对螯合性表面活性剂及其金属螯合物的应用提出了新的见解。
2.
The uniform films of polymeric azobenzolbiquinoline metal chelates were self assembled on hydroxy functional surfaces by alternately dipping in DMF solution of metal acetate a.
8-羟基喹啉-金属螯合物在电致发光领域中的应用主要是作为有机小分子材料直接应用[2~5]或将其分子分散到聚合物基质中形成分子掺杂聚合物[6~8]做发光材料应用。
补充资料:出火珠
1.美玉玫瑰的别名。
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