F. Koch scite author profile

We show that light emission from different systems of silicon nanocrystals does behave as expected for indirect-band-gap quantum dots. Photoluminescence excited on the low energy part of the distribution of Si nanocrystals exhibits a set of narrow peaks associated with Si TA and TO momentumconserving phonon-assisted optical transitions. These spectra allow us to determine the ratio of nophonon transitions to TA and TO phonon-assisted processes over a wide range of confinement energies. The ratio between these recombination channels changes by 2 orders of magnitude with increasing confinement energy. For confinement energies above 0.7 eV the radiative transitions are governed by no-phonon quasidirect processes. [S0031-9007 (98)07199-3] PACS numbers: 78.55.Ap, 78.66.Li

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Photoluminescence and free-electron absorption in heavily phosphorus-doped Si nanocrystals

Mimura

et al. 2000

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Rapid-thermal-oxidized porous Si−The superior photoluminescent Si

et al. 1992

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To improve the stability of porous Si (PS) prepared by electrochemical etching, we make use of rapid-thermal oxidation (RTO). During RTO processing, the hydride coverage of the internal surfaces of the pores is replaced by a high-quality oxide while retaining nm-sized Si grains. With increasing process temperature Tox the luminescence is first quenched. It is recovered with comparable intensity for Tox≥700 °C.

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Photovoltage in nanocrystalline porousTiO2

et al. 2001

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The luminescence of porous Si: the case for the surface state mechanism

Koch

Petrova‐Koch

Muschik

1993

Journal of Luminescence

333

120

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F. Koch

Breakdown of thek-Conservation Rule in Si Nanocrystals

Photoluminescence and free-electron absorption in heavily phosphorus-doped Si nanocrystals

Rapid-thermal-oxidized porous Si−The superior photoluminescent Si

Photovoltage in nanocrystalline porousTiO2

The luminescence of porous Si: the case for the surface state mechanism

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