吡嘧磺隆 青云英语翻译 请在下面的文本框内输入文字,然后点击开始翻译按钮进行翻译,如果您看不到结果,请重新翻译! 翻译结果1翻译结果2翻译结果3翻译结果4翻译结果5 翻译结果1复制译文编辑译文朗读译文返回顶部 Pyrazosulfuron-ethyl 翻译结果2复制译文编辑译文朗读译文返回顶部...
吡嘧磺隆问题补充:匿名 2013-05-23 12:21:38 Pyrazosulfuron-ethyl 匿名 2013-05-23 12:23:18 Raised on all human cloning 匿名 2013-05-23 12:24:58 The pyrrole pyrimidine sulphur is prosperous 匿名 2013-05-23 12:26:38 Effects of chlorimuron 匿名 2013-05-23 12:28:18 keepers...
中文名称: 吡嘧磺隆 英文名称: Pyrazosulfuron-ethyl CAS No.: 93697-74-6 分子式: C14H18N6O7S 分子量: 414.393721103668 如需查看该化合物的详细结构式,mol文件,smile,InChi 请点击:吡嘧磺隆结构式 下载该化合物MOL文件: 吡嘧磺隆MOL PubChem CID: 24870034 快速询单 ...
英文名称:Imazosulfuron 分子量:412.805 分子式:C14H13ClN6O5S 基本信息物化属性安全信息生产及用途MSDS 国标编号: CAS:122548-33-8 中文名称:咪唑磺隆 英文名称:imazosulfuron 别名:1-(2-氯咪唑[1,2-A]吡啶-3-甲基磺酰基)-3-(4,6-二甲嘧啶-2)尿素 ...
英文名称:Imidazo[4,5-d]imidazole-1(2H)-aceticacid, hexahydro-4,6-dimethyl-2,5-dioxo- CAS No.:343768-54-7 分子式:C8H11N4O4- 分子量:227.19734 如需查看该化合物的详细结构式,mol文件,smile,InChi 请点击:氯吡嘧磺隆结构式 下载该化合物MOL文件:氯吡嘧磺隆MOL ...
吡嘧磺隆 1. Using ethyl cyanoacetate, triethyl orthoformate and methylhydrazine as main raw materials, the herbicidepyrazosulfuronwas prepared through the reactions of substitution, amination, cylclization, diazotization and chlorosulfonation. 以氰乙酸乙酯、原甲酸三乙酯和甲肼等为主要原料,通过取代、胺化、...
吡嘧磺隆 1. Using ethyl cyanoacetate, triethyl orthoformate and methylhydrazine as main raw materials, the herbicidepyrazosulfuronwas prepared through the reactions of substitution, amination, cylclization, diazotization and chlorosulfonation. 以氰乙酸乙酯、原甲酸三乙酯和甲肼等为主要原料,通过取代、胺化、...
吡嘧磺隆 1. Using ethyl cyanoacetate, triethyl orthoformate and methylhydrazine as main raw materials, the herbicide pyrazosulfuron was prepared through the reactions of substitution, amination, cylclization, diazotization and chlorosulfonation. 以氰乙酸乙酯、原甲酸三乙酯和甲肼等为主要原料,通过取代、...
吡嘧磺隆 1. Using ethyl cyanoacetate, triethyl orthoformate and methylhydrazine as main raw materials, the herbicide pyrazosulfuron was prepared through the reactions of substitution, amination, cylclization, diazotization and chlorosulfonation. 以氰乙酸乙酯、原甲酸三乙酯和甲肼等为主要原料,通过取代、...