嘧啶衍生物的合成与转化、生物活性与代谢研究是有意义的。
Studies on the synthesis and conversions, biological activity and metabolism of pyrimidine derivatives are significant.
在与正常气化炉同样的工作温度下,使用二氧化碳能提高固体燃料至合成气的转化率。
Working at the same temperature as a normal gasifier, using CO2 means a better conversion of solid fuel into syngas.
本论文研究目标是在常规阴离子聚合方法合成sbs的基础上,通过端基转化实现了SBS与极性单体共聚。
Based on the general synthesis of SBS by anionic polymerization mechanism, we have carried out the copolymerization of SBS with several polar monomers by conversion of end-group of SBS.
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