论文部分内容阅读
自然科学的发展自然地导致在一些学科的边缘萌生出杂交的分支学科。一门新学科的重大理论的形成、研究队伍的扩大和生命力的旺盛,都与其在生产中发挥的作用紧密相关。有机地球化学是地球化学的一个分支,它首先发芽在有机化学、沉积学和生物化学的土壤中,石油工业的发展对它的成长起着很大的促进作用。1934年德国化学家A.Treibs首先从煤、页岩和石油中分析出钒卟啉,由于钒卟啉的结构与植物的叶绿素结构相似,他的发现有力地支持了当时争论不休的石油有机机成因学说,从而开创了有机
The development of natural science naturally led to the emergence of a branch of hybridism on the edge of some disciplines. The formation of a major theory of a new discipline, the expansion of the research team and the vitality of its vitality are all closely related to its role in production. Organic geochemistry is a branch of geochemistry, it first sprouted in organic chemistry, sedimentology and biochemistry in the soil, the development of the petroleum industry played a significant role in promoting its growth. In 1934 German chemist A. Treibs first analyzed vanadium porphyrin from coal, shale and oil. Because of the similar structure of the vanadium porphyrin to the chlorophyll structure of plants, his findings strongly supported the controversial petroleum organic machinery Genesis theory, which created a organic