Matthias Stein scite author profile

Plasma‐synthesized silicon nanocrystals with alkene ligands have shown the potential to exhibit high‐efficiency photoluminescence, but results reported in the literature have been inconsistent. Here, for the first time, the role of the immediate post‐synthesis “afterglow plasma” environment is explored. The significant impact of gas injection into the afterglow plasma on the photoluminescence efficiency of silicon nanocrystals is reprorted. Depending on the afterglow conditions, photoluminescence quantum yields of silicon nanocrystals synthesized under otherwise identical conditions can vary by a factor of almost five. It is demonstrated that achieving a fast quenching of the particle temperature and a high flux of atomic hydrogen to the nanocrystal surface are essential for a high photoluminescence quantum yield of the produced silicon nanocrystals.

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Solids motion in bubbling gas fluidised beds

Stein

Ding

Seville

et al. 2000

Chemical Engineering Science

151

109

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The transition from spark to arc discharge and its implications with respect to nanoparticle production

et al. 2013

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Experimental validation of granular dynamics simulations of gas-fluidised beds with homogenous in-flow conditions using Positron Emission Particle Tracking

et al. 2001

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Effect of carrier gas composition on transferred arc metal nanoparticle synthesis

2013

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Matthias Stein

Routes to Achieving High Quantum Yield Luminescence from Gas‐Phase‐Produced Silicon Nanocrystals

Solids motion in bubbling gas fluidised beds

The transition from spark to arc discharge and its implications with respect to nanoparticle production

Experimental validation of granular dynamics simulations of gas-fluidised beds with homogenous in-flow conditions using Positron Emission Particle Tracking

Effect of carrier gas composition on transferred arc metal nanoparticle synthesis

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