These inventions have applicability in the photovoltaics, microelectronics, Li-ion battery (anode), photovoltaic, display, optoelectronic devices and biomedical market.

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Invention Summary Tunable band-gap of silicon nano-crystals (Si-NCs) presents applications such as light emitting diodes, broad-band absorber in solar cells and many more. By engineering the size, crystallinity, surface state (functionalized group) the properties of Si-NCs can be designed to offer variety of opto-electronic properties. Syntheses of freestanding Si-NCs adopt either a low-pressure plasma process with mono-silane or cumbersome chemical reduction processes; these have limited throughput and require additional processing to make them stable. Injection of liquid hydrosilane composition and subsequent pyrolysis allows continuous synthesis of few nm to sub-micron sized particles, with the ability to design the morphology (amorphous, intermediate to crystalline) and surface chemistry (passivation). In addition, by sequential injection of the liquid hydrosilane composition synthesis of core-shell nanoparticles of Si is possible. Synthesis of organic-inorganic photoluminescent hybrid nanomaterials with tunable emission is feasible with this technology. Benefits Continuous synthesis of Si-QDs In-flight passivation with size and surface functionality engineering Various forms of Si-NPs possible: degenerately doped, core-shell, Si-NPs etc. Particles can be collected dry or in colloidal form Applications These inventions have applicability in the photovoltaics, microelectronics, Li-ion battery (anode), photovoltaic, display, optoelectronic devices and biomedical market.  

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