Ammonium carnallite was synthesized by hydrated magnesium chloride in salt lake and ammonium chloride solution. Dehydrated ammonium carnallite was dissolved in methanol under low temperature by feeding ammonia, to pre...Ammonium carnallite was synthesized by hydrated magnesium chloride in salt lake and ammonium chloride solution. Dehydrated ammonium carnallite was dissolved in methanol under low temperature by feeding ammonia, to prepare anhydrous magnesium chloride. The results show that anhydrous magnesium chloride contains magnesium oxide in an amount less than 0.1% by weight, the yield of magnesium chloride was above 99.5%. Ammonium carnallite, ammoniation magnesium chloride and anhydrous magnesium chloride were characterized by thermoanalysis, X-ray powder diffraction and scanning electron microscopy.展开更多
银杏叶提取物(Extracts of Ginkgo biloba,EGb)具有诸多生物活性,但银杏酚酸的存在限制了EGb的应用。目前,去除EGb中银杏酚酸的方法主要有有机溶剂法和柱层析法,笔者在有机溶剂法的基础上提出配位-有机溶剂法,即在有机溶剂法最佳工艺条...银杏叶提取物(Extracts of Ginkgo biloba,EGb)具有诸多生物活性,但银杏酚酸的存在限制了EGb的应用。目前,去除EGb中银杏酚酸的方法主要有有机溶剂法和柱层析法,笔者在有机溶剂法的基础上提出配位-有机溶剂法,即在有机溶剂法最佳工艺条件的基础上引入金属离子配位以增加去除银杏酚酸的效果。结果表明:利用配位-有机溶剂法可以有效去除银杏酚酸,并有效减少有机溶剂洗涤次数,且不影响总银杏黄酮苷和总银杏内酯的含量;同时,EGb中的部分黄酮与锌离子形成配合物,可以提高EGb的抗肝癌细胞(HepG2)的活性。展开更多
文摘Ammonium carnallite was synthesized by hydrated magnesium chloride in salt lake and ammonium chloride solution. Dehydrated ammonium carnallite was dissolved in methanol under low temperature by feeding ammonia, to prepare anhydrous magnesium chloride. The results show that anhydrous magnesium chloride contains magnesium oxide in an amount less than 0.1% by weight, the yield of magnesium chloride was above 99.5%. Ammonium carnallite, ammoniation magnesium chloride and anhydrous magnesium chloride were characterized by thermoanalysis, X-ray powder diffraction and scanning electron microscopy.
文摘银杏叶提取物(Extracts of Ginkgo biloba,EGb)具有诸多生物活性,但银杏酚酸的存在限制了EGb的应用。目前,去除EGb中银杏酚酸的方法主要有有机溶剂法和柱层析法,笔者在有机溶剂法的基础上提出配位-有机溶剂法,即在有机溶剂法最佳工艺条件的基础上引入金属离子配位以增加去除银杏酚酸的效果。结果表明:利用配位-有机溶剂法可以有效去除银杏酚酸,并有效减少有机溶剂洗涤次数,且不影响总银杏黄酮苷和总银杏内酯的含量;同时,EGb中的部分黄酮与锌离子形成配合物,可以提高EGb的抗肝癌细胞(HepG2)的活性。