2014
DOI: 10.1021/ja506712d
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Monodisperse Colloidal Gallium Nanoparticles: Synthesis, Low Temperature Crystallization, Surface Plasmon Resonance and Li-Ion Storage

Abstract: We report a facile colloidal synthesis of gallium (Ga) nanoparticles with the mean size tunable in the range of 12–46 nm and with excellent size distribution as small as 7–8%. When stored under ambient conditions, Ga nanoparticles remain stable for months due to the formation of native and passivating Ga-oxide layer (2–3 nm). The mechanism of Ga nanoparticles formation is elucidated using nuclear magnetic resonance spectroscopy and with molecular dynamics simulations. Size-dependent crystallization and melting… Show more

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Cited by 146 publications
(166 citation statements)
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“…NP growth took 263 s at 300 K resulting in Ga NPs in a liquid state. 10,16 During deposition the Ga film self-assembled into nanoparticles through a process of adsorption, surface diffusion, and coalescence through Ostwald ripening. 31,63 Real-time monitoring of this process was performed by in situ spectroscopic ellipsometry (SE) from λ 0 = 200À820 nm at a 20°g razing angle of incidence, permitting the termination of growth when the desired optical properties were attained ( Figure 1E).…”
Section: Methodsmentioning
confidence: 99%
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“…NP growth took 263 s at 300 K resulting in Ga NPs in a liquid state. 10,16 During deposition the Ga film self-assembled into nanoparticles through a process of adsorption, surface diffusion, and coalescence through Ostwald ripening. 31,63 Real-time monitoring of this process was performed by in situ spectroscopic ellipsometry (SE) from λ 0 = 200À820 nm at a 20°g razing angle of incidence, permitting the termination of growth when the desired optical properties were attained ( Figure 1E).…”
Section: Methodsmentioning
confidence: 99%
“…These methods include self-assembly during molecular beam epitaxy (MBE), 6,7 optically regulated self-assembly, 8 thermal evaporation, 9 and colloidal synthesis. 10 When exposed to atmosphere following synthesis, Ga NPs form a thin, self-terminating native oxide shell that protects the pure metallic core. This Ga 2 O 3 oxide layer, 11 which is 0.5À3 nm thick, 10À12 provides both structural and chemical stability, allowing the optical response of Ga NPs to remain stable B under atmospheric conditions over many months or years.…”
mentioning
confidence: 99%
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“…Moreover, the new range of bottom-up fabrications techniques that allow the production of Ga NPs, make this material very appealing for practical purposes. These fabrication methods include molecular beam epitaxy (MBE) [24,56], optically regulated self-assembly [57], thermal evaporation [58], and colloidal synthesis [59]. In addition, unlike either Al or Mg, its very low tendency to oxidation (1-2 nm oxide shell thickness), minimally affects its optical properties, keeping them stable over months or even years [23,24].…”
Section: Galliummentioning
confidence: 99%