Reversing the size-dependence of surface plasmon resonances

Abstract: The size-dependence of surface plasmon resonances (SPRs) is poorly understood in the small particle limit due to complex physical/chemical effects and uncertainties in experimental samples. In this article, we report an approach for synthesizing an ideal class of colloidal Ag nanoparticles with highly uniform morphologies and narrow size distributions. Optical measurements and theoretical analyses for particle diameters in the d ≈ 2-20 nm range are presented. The SPR absorption band exhibits an exceptional beh… Show more

“…Resolving this issue is important for the engineering of ultrasmall plasmonic structures with optimized functionalities. [19][20][21] In this Rapid Communication we report that unusual resonances due to nonlocal response do exist in nanoplasmonic structures, but only above the plasma frequency, not in the visible. We illustrate this property of arbitrary plasmonic structures by exact calculations for metallic cylinders.…”

Unusual resonances in nanoplasmonic structures due to nonlocal response

“…Resolving this issue is important for the engineering of ultrasmall plasmonic structures with optimized functionalities. [19][20][21] In this Rapid Communication we report that unusual resonances due to nonlocal response do exist in nanoplasmonic structures, but only above the plasma frequency, not in the visible. We illustrate this property of arbitrary plasmonic structures by exact calculations for metallic cylinders.…”

Unusual resonances in nanoplasmonic structures due to nonlocal response

“…When the particle size increased, the absorption peak shifted towards the red wavelength, which indicated the formation of larger sized nanoparticles (Peng et al 2010).…”

Antimicrobial activities of silver nanoparticles synthesized from Lycopersicon esculentum extract

“…After the reaction ethanol was added and the solution was centrifuged at 2000 rpm for 5 min to precipitate the larger NPs. Size selective precipitation of the supernatant as described by Peng 23 was carried out to narrow the NP size distribution. Galvanic replacement: A fresh 0.2 mM solution of AuCl3 was prepared by dissolving 3.4 mg of AuCl3 and 2 ml of OAm in 48 ml of DCB.…”

Controlling alloy formation and optical properties by galvanic replacement of sub-20 nm silver nanoparticles in organic media