机译:Br?Nsted-酸促进的N-无保护吲哚的rh催化的不对称氢化:过渡金属和阴离子结合的含量分析
Department of Chemistry Southern University of Science and Technology (SUSTech) 1088 Xueyuan Road Shenzhen 518055 China;
Department of Chemistry Southern University of Science and Technology (SUSTech) 1088 Xueyuan Road Shenzhen 518055 China;
Department of Chemistry and Chemical Biology Rutgers The State University of New Jersey 610 Taylor Road Piscataway New Jersey 08854 United States;
Department of Chemistry and Chemical Biology Rutgers The State University of New Jersey 610 Taylor Road Piscataway New Jersey 08854 United States;
Department of Chemistry Southern University of Science and Technology (SUSTech) 1088 Xueyuan Road Shenzhen 518055 China;
Department of Chemistry Southern University of Science and Technology (SUSTech) 1088 Xueyuan Road Shenzhen 518055 China;
Department of Chemistry Southern University of Science and Technology (SUSTech) 1088 Xueyuan Road Shenzhen 518055 China;
机译:Br?Nsted-酸促进的N-无保护吲哚的rh催化的不对称氢化:过渡金属和阴离子结合的含量分析
机译:RH催化不饱和介质环NH内酰胺的不对称氢化:N-无保护的2,3-二氢-1,5-苯并噻吩的高度对映选择性合成
机译:过渡金属催化的N-未保护的亚胺,烯胺和N-杂芳族化合物的不对称加氢中的布朗斯台德酸活化策略
机译:p-含氯化鏻盐:制备和在Rh催化不对称氢化的氨基氨基
机译:Tetradipicolyamine取代的间苯二酚[4]芳烃空洞:I.阴离子结合和过渡金属组装的配位笼和纳米结构。二。适用于阴离子分离的聚合物包合物膜。
机译:强布朗斯台德酸通过阴离子键合促进Rh-硫脲手性膦配合物催化异喹啉和喹啉的不对称氢化
机译:矫正Brønsted-酸促进的N-无保护吲哚的rh催化的不对称氢化:过渡金属和阴离子结合的Cocaty分析