Comparing the interparticle coupling effect on sensitivities of silver and gold nanoparticles

The wavelength shift of surface plasmon resonance peak resulting from the electromagnetic coupling noble metal nanoparticle increases with the increase in the dielectric constant of the medium and the decrease in the interparticle separation distance. In this work, the discrete dipole approximation method was used to calculate the extinction efficiency spectra of the silver-silver and gold-gold nanoparticle pairs. This work shows that the silver coupled-particle system has higher plasmon resonance sensitivity as compared to the gold coupled-particle system. However, the silver coupled-particle system has lower and a faster near-exponential decay of sensitivity enhancement factor than the gold coupled-particle system. Thus, the silver coupled-particle may be more suited for sensing applications as compared to the gold coupled-particle, but the interparticle coupling effect displays more pronounced effect on the gold coupled-particle system as compared to the silver coupled-particle system.

► Silver nanoparticle pair has higher sensitivity than gold nanoparticle pair. ► Silver nanoparticle pair is more suited for sensing than gold nanoparticle pair. ► Interparticle coupling effect plays more pronounced effect on gold nanoparticle pairs.