Silicon emission technologies based on nanocrystals
Lead Research Organisation:
University of Surrey
Department Name: ATI Electronics
Abstract
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People |
ORCID iD |
Russell Gwilliam (Principal Investigator) |
Publications
Crowe I
(2010)
Spatially correlated erbium and Si nanocrystals in coimplanted SiO2 after a single high temperature anneal
in Journal of Applied Physics
Crowe I
(2011)
Probing the phonon confinement in ultrasmall silicon nanocrystals reveals a size-dependent surface energy
in Journal of Applied Physics
Crowe I
(2013)
Donor ionization in size controlled silicon nanocrystals: The transition from defect passivation to free electron generation
in Journal of Applied Physics
Ishii M
(2012)
Investigation of the thermal charge "trapping-detrapping" in silicon nanocrystals: Correlation of the optical properties with complex impedance spectra
in Applied Physics Letters
Ishii M
(2014)
Luminescence quenching of conductive Si nanocrystals via "Linkage emission": Hopping-like propagation of infrared-excited Auger electrons
in Journal of Applied Physics
Jayatilleka H
(2011)
Probing energy transfer in an ensemble of silicon nanocrystals
in Journal of Applied Physics
Yang P
(2013)
Size limit on the phosphorous doped silicon nanocrystals for dopant activation
in Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms
Description | Fabrication techniques for Si NC formation in oxide nitride materials system to optimize the luminescent properties of the NC we were able to improve the incorporation of erbium into silicon oxide with applications to telecomms market. The use of Bismuth as a light emitter was shown to be ineffective due to out diffusion. The use of rapid thermal processing was shown to control the size of silicon nanocrystals and tune their emission wavelength |
Exploitation Route | Solid characterization data of influence of process conditions on the luminescent properties of NC films synthesized by ion implantation. could be of use in the photovoltaic field, the process developed has been used by the US renewable energy laboratory for improved energy harvesting in Silicon based solar cells |
Sectors | Agriculture Food and Drink Digital/Communication/Information Technologies (including Software) Electronics Pharmaceuticals and Medical Biotechnology |
Description | The findings in this grant detail the fabrication conditions and doping strategy for Si NC material system for maximized luminescence. |
First Year Of Impact | 2013 |
Sector | Electronics,Manufacturing, including Industrial Biotechology |
Impact Types | Societal |