We present a novel additive process, which allows the spatially controlled integration of nanoparticles (NPs) inside silicon surfaces. The NPs are placed between a conductive stamp and a silicon surface; by applying a bias voltage a SiO2 layer grows underneath the stamp protrusions, thus embedding the particles. We report the successful nanoembedding of CoFe2O4 nanoparticles patterned in lines, grids and logic structures.
Controlled drug release under a low frequency magnetic field: effect of the citrate coating on magnetoliposomes stability
Nappini Silvia;Sangregorio Claudio;
2011
Abstract
We present a novel additive process, which allows the spatially controlled integration of nanoparticles (NPs) inside silicon surfaces. The NPs are placed between a conductive stamp and a silicon surface; by applying a bias voltage a SiO2 layer grows underneath the stamp protrusions, thus embedding the particles. We report the successful nanoembedding of CoFe2O4 nanoparticles patterned in lines, grids and logic structures.File in questo prodotto:
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