化工进展
化工進展
화공진전
Chemical Industry and Engineering Progress
2015年
11期
4006-4013
,共8页
杨艳平%沈明贵%商士斌%宋湛谦
楊豔平%瀋明貴%商士斌%宋湛謙
양염평%침명귀%상사빈%송담겸
歧化松香胺%脱氢枞胺%脱氢枞胺衍生物%防腐%抗氧化%生物医学工程
歧化鬆香胺%脫氫樅胺%脫氫樅胺衍生物%防腐%抗氧化%生物醫學工程
기화송향알%탈경종알%탈경종알연생물%방부%항양화%생물의학공정
disproportionated rosin amine%dehydroabietylamine%dehydroabietylamine derivatives%anticorrosion%antioxidation%biomedical engineering
脱氢枞胺是歧化松香胺的主要成分,具有三环菲骨架结构,是松香重要的改性产品之一。本文综述了脱氢枞胺及其衍生物的应用研究进展,包括脱氢枞胺在手性化合物分离方面的应用和脱氢枞胺衍生物在抑菌、防腐、缓蚀、金属离子浮选、催化、抗癌、抗氧化、抗溃疡、可与雄性激素结合等方面的应用。指出目前脱氢枞胺成盐衍生物及脱氢枞胺N—C衍生物的研究较为广泛,脱氢枞胺B环和C环改性衍生物的研究仍需加强,而且对于B环和C环改性衍生物的深入研究,将进一步促进脱氢枞胺衍生物在生物活性方面的应用。最后对脱氢枞胺衍生物在生物医学工程上的应用前景进行了展望。
脫氫樅胺是歧化鬆香胺的主要成分,具有三環菲骨架結構,是鬆香重要的改性產品之一。本文綜述瞭脫氫樅胺及其衍生物的應用研究進展,包括脫氫樅胺在手性化閤物分離方麵的應用和脫氫樅胺衍生物在抑菌、防腐、緩蝕、金屬離子浮選、催化、抗癌、抗氧化、抗潰瘍、可與雄性激素結閤等方麵的應用。指齣目前脫氫樅胺成鹽衍生物及脫氫樅胺N—C衍生物的研究較為廣汎,脫氫樅胺B環和C環改性衍生物的研究仍需加彊,而且對于B環和C環改性衍生物的深入研究,將進一步促進脫氫樅胺衍生物在生物活性方麵的應用。最後對脫氫樅胺衍生物在生物醫學工程上的應用前景進行瞭展望。
탈경종알시기화송향알적주요성분,구유삼배비골가결구,시송향중요적개성산품지일。본문종술료탈경종알급기연생물적응용연구진전,포괄탈경종알재수성화합물분리방면적응용화탈경종알연생물재억균、방부、완식、금속리자부선、최화、항암、항양화、항궤양、가여웅성격소결합등방면적응용。지출목전탈경종알성염연생물급탈경종알N—C연생물적연구교위엄범,탈경종알B배화C배개성연생물적연구잉수가강,이차대우B배화C배개성연생물적심입연구,장진일보촉진탈경종알연생물재생물활성방면적응용。최후대탈경종알연생물재생물의학공정상적응용전경진행료전망。
As the main component of disproportionated rosin amine,dehydroabietylamine with the tricyclic diterpene skeleton is one of the important modified products of rosin. The research progress in the application of dehydroabietylamine and its derivatives is reviewed,including the application of dehydroabietylamine in chiral compound separation and the application of dehydroabietylamine derivatives in antibacterial,anticorrosion,corrosion inhibition,metal ion flotation,catalysis, anticancer,antioxidation,antiulcer and combining with testosterone. At present,the study of dehydroabietylamine derivatives modified on B ring and C ring is still needed to be strengthened although dehydroabietic amine salts and N—C derivatives are widely studied. And furthermore,the in-depth study of dehydroabietylamine derivatives modified on B ring and C ring will further promote the application of dehydroabietylamine derivatives in biological activity. The future research and application of dehydroabietic amine derivatives on biomedical engineering are previewed.