Facile tuning of plasmon bands in hollow silver nanoshells using mild reductant and mild stabilizer

Abstract: Hollow silver nanoshells with tunable plasmon bands have been synthesized using Ag2O nanoparticles at an optimized temperature of 20 °C. The plasmon peak has been tuned in a wide range from 460 nm to 605 nm employing a combination of mild reductant and a mild stabilizer, hydrazine hydrate and sodium citrate, respectively. In contrast, the combination of strong reductant and strong stabilizer, NaBH4 and hydrophilic thiols, resulted in limited plasmon tunability (455-510 nm). The differential behaviour is attrib… Show more

“…The photocatalytic formation of the AgNPs was monitored by following the change in absorbance at 420 nm which corresponds to the surface plasmon resonance band of AgNPs (Figures 1(a) and 1(b)) [52]. A visible color change from colorless to amber, characteristic of silver nanoparticles in aqueous solution, was observed and provides further evidence supporting the conclusion that AgNPs were successfully synthesized by this method (Figure 1(c)).…”

A Ferritin Photochemical Synthesis of Monodispersed Silver Nanoparticles That Possess Antimicrobial Properties

“…The photocatalytic formation of the AgNPs was monitored by following the change in absorbance at 420 nm which corresponds to the surface plasmon resonance band of AgNPs (Figures 1(a) and 1(b)) [52]. A visible color change from colorless to amber, characteristic of silver nanoparticles in aqueous solution, was observed and provides further evidence supporting the conclusion that AgNPs were successfully synthesized by this method (Figure 1(c)).…”

A Ferritin Photochemical Synthesis of Monodispersed Silver Nanoparticles That Possess Antimicrobial Properties

“…This suggests that glutathione caps the silver nanoparticles through the thiol from cysteine. 57 The stretching vibration band which is the characteristic peak of carboxylic group was found to have shied slightly to a lower wavenumber of 1602 cm À1 which can be attributed to weak interaction between the negatively charged COO À and electropositive silver core as depicted in Fig. 3b.…”

Fluorescent silver nanoparticle based highly sensitive immunoassay for early detection of HIV infection

“…The synthesis of metallic nanoparticles has been improved to the extent that control over their geometrical parameters and distribution can be achieved [3][4][5][6]. The size, morphology, surrounding dielectric environment and metallic type determine the plasmonic frequencies [7] and the relative intensities of the LSPR modes [8]. Noble metal nanoparticles display strong LSPR [9,10] and high EM (electromagnetic) enhancement, and thus enable both chemical-and bio-sensing [11,12].…”

Cysteine sensing by plasmons of silver nanocubes