Yelena Vinetsky scite author profile

Stabilized concentrated citrate-reduced silver nanocolloids for use as pigments in ink-jet inks were prepared. Carboxymethyl cellulose was used as a polymeric stabilizer providing both electrostatic and steric stabilization. X-ray diffraction pattern, optical properties (UV−visible spectroscopy), size (TEM and dynamic light scattering), and zeta potentials of the nanoparticles were studied. It was shown that the product is silver with cubic symmetry. Absorption spectra are characterized, as a rule, by asymmetric absorption bands with maxima at 417−440 nm and shoulders at 350−352 and 380−382 nm. TEM images of unstabilized and stabilized colloids indicate the formation of nanoparticles of different shapes (spheres, hexagons, cubes, and rods) with rather wide size distribution in the range from several nanometers (spheres) up to several hundreds of nanometers (rods). CMC was found to be an effective stabilizer of silver nanoparticles, and the average particle size at CMC concentrations from 0.025 to 0.2 wt % does not exceed 50 nm. Both unstabilized and stabilized silver nanoparticles display negative zeta potentials in the pH range from 2 to 9; the maximal negative values are observed at pH 6−8 (−27 ± 5 mV for unstabilized and −33 ± 5 mV for CMC-stabilized colloids, respectively). Concentrated dispersions of silver nanoparticles (1.1 wt % of silver), which were stable for at least 7 months, were prepared by exhausted lyophilization of the freshly prepared colloids followed by redispersion. These nanoparticles in the presence of proper wetting agent, such as Disperbyk, can be used as pigments in ink-jet ink formulations for printing on various substrates (paper, glass, and transparencies). The stabilizing agent, carboxymethyl cellulose, also acts as a binder, providing good adhesion of ink to the substrates.

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Formation and structural heat-stability of β-lactoglobulin/surfactant complexes

Magdassi

Vinetsky

Relkin³

1996

Colloids and Surfaces B: Biointerfaces

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Inkjet printed fluorescent nanorod layers exhibit superior optical performance over quantum dots

et al. 2015

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Semiconductor nanocrystals exhibit unique fluorescence properties which are tunable in size, shape and composition. The high quantum yield and enhanced stability have led to their use in biomedical imaging and flat panel displays. Here, semiconductor nanorod based inkjet inks are presented, overcoming limitations of the commonly reported quantum dots in printing applications. Fluorescent seeded nanorods were found to be outstanding candidates for fluorescent inks, due to their low particle-particle interactions and negligible self-absorption. This is manifested by insignificant emission shifts upon printing, even in highly concentrated printed layers and by maintenance of a high fluorescence quantum yield, unlike quantum dots which exhibit fluorescence wavelength shifts and quenching effects. This behavior results from the reduced absorption/emission overlap, accompanied by low energy transfer efficiencies between the nanorods as supported by steady state and time resolved fluorescence measurements. The new seeded nanorod inks enable patterning of thin fluorescent layers, for demanding light emission applications such as signage and displays.

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Properties of complexes and particles of gelatin with ionic surfactants

Vinetsky

Magdassi

1998

Colloid & Polymer Science

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Microencapsulation by Surfactant–Gelatin Insoluble Complex: Effect of pH and Surfactant Concentration

Vinetsky

Magdassi

1997

Journal of Colloid and Interface Science

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Yelena Vinetsky

Silver Nanoparticles as Pigments for Water-Based Ink-Jet Inks

Formation and structural heat-stability of β-lactoglobulin/surfactant complexes

Inkjet printed fluorescent nanorod layers exhibit superior optical performance over quantum dots

Properties of complexes and particles of gelatin with ionic surfactants

Microencapsulation by Surfactant–Gelatin Insoluble Complex: Effect of pH and Surfactant Concentration

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