Solution photolysis of (η-C5H5)Rh(C2H4)2 leads to substitution of ethane in the presence of donor ligands and to oxidative addition with R3SiH (R = Me or Et); photolysis in inert matrices causes reversible loss of ethane, but in reactive matrices substitution by N2 and CO takes place.
的溶液光解(η-C 5 H ^ 5)的Rh(C 2 H ^ 4)2倍,因而在供体
配体的和对氧化加成,其中R存在
乙烷的取代3的SiH(R = Me或Et); 在惰性基质中进行光解会导致
乙烷的可逆损失,但在反应性基质中会发生N 2和CO取代。