O. Akcakir scite author profile

We dispersed electrochemical etched Si into a colloid of ultrasmall blue luminescent nanoparticles, observable with the naked eye, in room light. We use two-photon near-infrared femtosecond excitation at 780 nm to record the fluctuating time series of the luminescence, and determine the number density, brightness, and size of diffusing fluorescent particles. The luminescence efficiency of particles is high enough such that we are able to detect a single particle, in a focal volume, of 1 pcm3. The measurements yield a particle size of 1 nm, consistent with direct imaging by transmission electron microscopy. They also yield an excitation efficiency under two-photon excitation two to threefold larger than that of fluorescein. Detection of single particles paves the way for their use as labels in biosensing applications.

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Stimulated blue emission in reconstituted films of ultrasmall silicon nanoparticles

Nayfeh

Barry

Therrien

et al. 2001

155

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We dispersed electrochemical etched Si into a colloid of ultrabright blue luminescent nanoparticles (1 nm in diameter) and reconstituted it into films or microcrystallites. When the film is excited by a near-infrared two-photon process at 780 nm, the emission exhibits a sharp threshold near 106 W/cm2, rising by many orders of magnitude, beyond which a low power dependence sets in. Under some conditions, spontaneous recrystallization forms crystals of smooth shape from which we observe collimated beam emission, pointing to very large gain coefficients. The results are discussed in terms of population inversion, produced by quantum tunneling or/and thermal activation, and stimulated emission in the quantum confinement-engineered Si–Si phase found only on ultrasmall Si nanoparticles. The Si–Si phase model provides gain coefficients as large as 103–105 cm−1.

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Isotropic-nematic interface of liquid-crystalline polymers

1995

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Second harmonic generation in microcrystallite films of ultrasmall Si nanoparticles

Nayfeh

Akcakir

Belomoin

et al. 2000

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We dispersed crystalline Si into a colloid of ultrasmall nano particles ͑ϳ1 nm͒, and reconstituted it into microcrystallites films on device-quality Si. The film is excited by near-infrared femtosecond two-photon process in the range 765-835 nm, with incident average power in the range 15-70 mW, focused to ϳ1 m. We have observed strong radiation at half the wavelength of the incident beam. The results are analyzed in terms of second-harmonic generation, a process that is not allowed in silicon due to the centrosymmetry. Ionic vibration of or/and excitonic self-trapping on novel radiative Si-Si dimer phase, found only in ultrasmall nanoparticles, are suggested as a basic mechanism for inducing anharmonicity that breaks the centrosymmetry.

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Si–N linkage in ultrabright, ultrasmall Si nanoparticles

Rogozhina

Belomoin

Smith

et al. 2001

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Ultrabright ultrasmall ͑ϳ1 nm͒ blue luminescent Si 29 nanoparticles are chlorinated by reaction with Cl 2 gas. A SiN linkage is formed by the reaction of the chlorinated particles with the functional amine group in butylamine. Fourier transform infrared spectroscopy and x-ray photospectroscopy measurements confirm the N linkage and the presence of the butyl group, while emission, excitation, and autocorrelation femtosecond optical spectroscopy show that, after the linkage formation, the particles with the ultrabright blue luminescent remain, but with a redshift of 40 nm.

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O. Akcakir

Detection of luminescent single ultrasmall silicon nanoparticles using fluctuation correlation spectroscopy

Stimulated blue emission in reconstituted films of ultrasmall silicon nanoparticles

Isotropic-nematic interface of liquid-crystalline polymers

Second harmonic generation in microcrystallite films of ultrasmall Si nanoparticles

Si–N linkage in ultrabright, ultrasmall Si nanoparticles

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