1) the cationic starch microspheres
阳离子型淀粉微球
1.
Then the cationic starch microspheres were prepared from the neutral starch microspheres by the secondary polymerization with GTA as cationic etherifying agent.
以反相悬浮法制备了N,N′-亚甲基双丙烯酰胺交联淀粉微球,通过醚化剂GTA与淀粉微球反应制得了阳离子型淀粉微球。
2) cationic starch microspheres
阳离子淀粉微球
1.
Soluble starch as raw materials and Span60 and Tween 60 as complex emulsifier, N,N\'-methylene-acrylamide (MBAA) crosslinker, in the inverse suspension system to trigger K2S2O8 -NaHSO3 Synthesis ofneutral starch microspheres, and then ether agent GTA starch microspheres and neutral response system in the cationic starch microspheres.
以可溶性淀粉为原料,以Span60和Tween60为复配乳化剂,N,N′-亚甲基双丙烯酰胺(MBAA)为交联剂,在反相悬浮体系中以K2S2O8-NaHSO3引发剂合成中性淀粉微球,再用醚化剂GTA与中性淀粉微球反应,制得阳离子淀粉微球。
3) anion starch microspheres
阴离子淀粉微球
1.
Study on adsorption of anion starch microspheres for Hg~(2+)
阴离子淀粉微球对Hg~(2+)的吸附研究
2.
Study on adsorption and kinetics of anion starch microspheres for Cr~(3+)
阴离子淀粉微球对Cr~(3+)的吸附及动力学研究
3.
Study on synthesis of anion starch microspheres and adsorption behavior for cupric ions
阴离子淀粉微球的合成及其对Cu~(2+)吸附性能的研究
4) cationic starch
阳离子型淀粉
5) cationic starch
阳离子淀粉
1.
Preparation of cationic starch modified flocculant and its performance on oil-containing wastewater;
阳离子淀粉改性絮凝剂的制备及其对油脂废水的絮凝效果
2.
Study on the flocculation performance of cationic starch in dyeing wastewaters;
阳离子淀粉对染料废水絮凝性能的研究
3.
Synthesis of quaternary ammonium type low substituting degrees of cationic starch;
季铵型低取代度阳离子淀粉的合成
6) Cation starch
阳离子淀粉
1.
Study of Chitosan -cation starch graft copolymer as Paper Strengthening Agent;
壳聚糖阳离子淀粉接枝共聚物纸张增强剂的研究
2.
Flocculation action of cation starch for treating Kaolin suspension
阳离子淀粉对高岭土悬浮液的絮凝处理
3.
Take the cation starches as the flocculant, adds PAC (polyaluminium) as the assistance flocculant, in factor under and so on consideration temperature, pH value influences, studies its effect on the printing waste water processing.
以阳离子淀粉为絮凝剂,加入PAC(聚合氯化铝),在考虑温度、pH值等因素的影响下,研究其对印染废水的处理效果。
补充资料:阳离子-阳离子干扰
分子式:
CAS号:
性质:火焰原子吸收光谱分析中,伴生阳离子对待测阳离子测定中信号的增强或抑制。它属于化学干扰;信号增强属于增感效应,信号被抑制属于干扰效应。如测定镁时铝存在可抑制镁的信号;测定铝时钛存在,可增强铝的信号。前者由于生成难解离的MgO·Al2O3,减少了镁的基态原子;后者是钛的亲氧能力比铝强,钛夺取了氧化铝中的氧,生成氧化钛,铝从氧化铝中释放出来。
CAS号:
性质:火焰原子吸收光谱分析中,伴生阳离子对待测阳离子测定中信号的增强或抑制。它属于化学干扰;信号增强属于增感效应,信号被抑制属于干扰效应。如测定镁时铝存在可抑制镁的信号;测定铝时钛存在,可增强铝的信号。前者由于生成难解离的MgO·Al2O3,减少了镁的基态原子;后者是钛的亲氧能力比铝强,钛夺取了氧化铝中的氧,生成氧化钛,铝从氧化铝中释放出来。
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