In this thesis, we studied the interactions among fluorescent molecules, silver nanoshell (SNSs), and silver nanorods (SNRs). Analysis the surface plasmon resonance modes of silver nanostructures for fluorescence resonance energy transfer(FRET) of energy transfer rate of two fluorescent molecule, and enhancement factor of the fluorescent molecule.Based on Maxwell's equations, we obtained the the analytical solutions internal and external electromagnetic field in the metal ball nanoparticles by plane wave incident or electric dipole source analytic solution to explore various modes of electromagnetic fields near the nature of the far-fielduse of dyadic Green's function , Mie theory, and. the multiple-multipole (MMP) method was used to solve these problems, We studied the surface plasmon resonances (SPRs) of these nanoparticles irradiated by different incident plane waves with different polarizations. The calculation results show that silver nanoshell structure can be excited through a specific incidence direction and the electric polarization of fluorescent molecules within a specific area, and once the fluorescent molecules are excited, the energy transfer with the resonant modes of the scattering body and quantum effects are closely related. The silver rods scatter, the longer longitudinal axis c, said silver nanorods more sharp, can provide a stronger radiation and non-radiation efficiency and energy transfer rate. In research of the silver nanoshells enhancement factor found that the efficiency of silver nanoshell dimer more strong than single,and first mode has obvious red shift.