Low-dimensional semiconductors systems have attracted much attention recently because they have many interesting properties and can have many potential technological applications. In this thesis we present our studies on the optical and electrical properties of three different II-VI semiconductor nanostructure systems. In the growth of one-dimensional CdSe nanostructures, different shapes and crystalline structures of one-dimensional CdSe were fabricated in a single process successfully by changing the growth parameters with a MOCVD system. In the study of Si solar cell, the efficiency of the solar cells was enhanced about 20 % or 40 % by spraying CdSe or CdTe quantum dots on the surfaces of textured Si wafer. The enhancement was attributed to the contribution of quantum dots in photo absorption and electron (or hole) transport. In the study on ZnTe/ZnSe system, the results demonstrate that there are two different mechanisms responsible for the green PL emission in ZnSeTe system and our growth methods provide a way of selecting one of the two mechanisms for the green light emission in this system.