机译:可再生多烯原料的复分解 - 间接证据形成催化活性钌烯丙烯醛类的形成
Institute of Materials and Environmental Chemistry Research Centre for Natural Sciences Hungarian Academy of Sciences;
Institute of Materials and Environmental Chemistry Research Centre for Natural Sciences Hungarian Academy of Sciences;
Institute of Materials and Environmental Chemistry Research Centre for Natural Sciences Hungarian Academy of Sciences;
Institute of Materials and Environmental Chemistry Research Centre for Natural Sciences Hungarian Academy of Sciences;
Institute of Materials and Environmental Chemistry Research Centre for Natural Sciences Hungarian Academy of Sciences;
NMR Laboratory Research Centre for Natural Sciences Hungarian Academy of Sciences;
Center for Green Chemistry and Engineering Yale University;
Institute of Materials and Environmental Chemistry Research Centre for Natural Sciences Hungarian Academy of Sciences;
Polyenes; Metathesis; Ruthenium; Green chemistry; Allylidene complexes;
机译:可再生多烯原料的复分解 - 间接证据形成催化活性钌烯丙烯醛类的形成
机译:烯烃复分解中的高活性催化剂:首次观察到的烯基亚烷基通过钌-碳炔-钌物种转化为茚基亚烷基
机译:溶液中第一代钌烯烃复分解催化剂的ESI-MS研究:直接检测具有催化活性的14电子钌中间体
机译:建立茚基内钌催化剂进行复分解转化
机译:催化利用二氧化碳作为化学品和燃料生产的可再生原料
机译:高活性钌复分解催化剂可在低温下进行环戊二烯的开环复分解聚合
机译:可再生多烯原料的复分解-催化活性钌亚芳基物种形成的间接证据