生物碱与一些特殊的试剂作用生成沉淀。这些反应可用于生物碱的检测和精制。本文分别在同步辐射装置和微聚焦 X 射线成像系统上用 X 射线相衬成像(XPCI)方法研究了三种不同类型的生物碱沉淀的结构。研究结果显示:在 Hager 试剂作用下,...生物碱与一些特殊的试剂作用生成沉淀。这些反应可用于生物碱的检测和精制。本文分别在同步辐射装置和微聚焦 X 射线成像系统上用 X 射线相衬成像(XPCI)方法研究了三种不同类型的生物碱沉淀的结构。研究结果显示:在 Hager 试剂作用下,有机胺类的秋水仙碱沉淀呈针状,吡啶类的槟榔碱沉淀呈胶团状,异喹啉类的小檗碱沉淀呈花瓣状。与目测或在光学显微镜下观察到的形态有很大差别。为今后用 XPCI 方法研究更复杂的化学反应体系提供参考和依据。展开更多
Due to the low absorption contrast of plant tissues, traditional x-ray radiography has not been included in the microscopic techniques used in the identification of traditional Chinese medicines (TCMs). With the dev...Due to the low absorption contrast of plant tissues, traditional x-ray radiography has not been included in the microscopic techniques used in the identification of traditional Chinese medicines (TCMs). With the development of x-ray phase contrast imaging (XPCI) in recent years, weakly absorbing materials could also be imaged by x- rays. Here we investigate microstructures of TCMs utilizing XPCI based on a nano-focus x-ray tube. The results demonstrated that XPCI is capable of revealing the microstructures of TCMs used as judging criteria in the identification of TCMs. The major advantages of the new method are nondestructivity, no special demand for sample preparation and suitability for thick samples.展开更多
文摘生物碱与一些特殊的试剂作用生成沉淀。这些反应可用于生物碱的检测和精制。本文分别在同步辐射装置和微聚焦 X 射线成像系统上用 X 射线相衬成像(XPCI)方法研究了三种不同类型的生物碱沉淀的结构。研究结果显示:在 Hager 试剂作用下,有机胺类的秋水仙碱沉淀呈针状,吡啶类的槟榔碱沉淀呈胶团状,异喹啉类的小檗碱沉淀呈花瓣状。与目测或在光学显微镜下观察到的形态有很大差别。为今后用 XPCI 方法研究更复杂的化学反应体系提供参考和依据。
文摘Due to the low absorption contrast of plant tissues, traditional x-ray radiography has not been included in the microscopic techniques used in the identification of traditional Chinese medicines (TCMs). With the development of x-ray phase contrast imaging (XPCI) in recent years, weakly absorbing materials could also be imaged by x- rays. Here we investigate microstructures of TCMs utilizing XPCI based on a nano-focus x-ray tube. The results demonstrated that XPCI is capable of revealing the microstructures of TCMs used as judging criteria in the identification of TCMs. The major advantages of the new method are nondestructivity, no special demand for sample preparation and suitability for thick samples.