Silicon emission technologies based on nanocrystals
Lead Research Organisation:
University College London
Department Name: Electronic and Electrical Engineering
Abstract
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People |
ORCID iD |
Anthony Kenyon (Principal Investigator) |
Publications
Anthony Kenyon (Author)
(2012)
Resistive switching in silicon sub-oxide films
Anthony Kenyon (Author)
(2012)
Picosecond time-resolved study of blue-green emission from Si nanoclusters embedded in a SiO2 matrix
Anthony Kenyon (Author)
(2012)
The transition from surface defect passivation to donor activation in size controlled Si-nanocrystals doped with phosphorus
Anthony Kenyon (Author)
(2013)
Investigations on fast and slow luminescence bands of silicon nanoclusters in silica matrix
Anthony Kenyon (Author)
(2011)
Rate equation modelling of erbium luminescence dynamics in erbium-doped silicon nanoparticles
Anthony Kenyon (Author)
(2010)
Time-resolved PL measurements of energy transfer in an ensemble of silicon nanocrystals
Anthony Kenyon (Author)
(2012)
Characterisation study of Er luminescence dynamics in Er doped Si-rich Silicon Oxide thin films
Anthony Kenyon (Author)
(2012)
Bi-modal Resistive Switching in Pure SiOx with Multi-level Capabilities
Anthony Kenyon (Author)
(2013)
Quantized Conductance in Resistive Switching Silicon Oxide
Description | We have developed new models for the origin of light emission from silicon nanocrystals and nanoclusters. These are important because we would like to be able to produce silicon-based light sources for integration with microelectronics. This has so far been impossible because silicon is an inefficient light emitter. The results from this project show ways in which this could be achieved. |
Exploitation Route | Other researchers - helping them to understand the process of light emission from silicon Industry - to help develop Si-based LEDs and other light sources |
Sectors | Aerospace, Defence and Marine,Digital/Communication/Information Technologies (including Software),Electronics,Energy |
Description | The work on silicon-doped silicon oxide allowed us to move into a new area, studying the electrical (rather than optical) properties of this material. We have now developed a technology that exploits this in novel devices for semiconductor memories. While this is not a direct impact from this grant, it is certainly indirect. We have set up a spin-out company to commercialise this new memory technology - Intrinsic Semiconductor Technologies Ltd |
First Year Of Impact | 2017 |
Sector | Electronics |
Impact Types | Economic |
Description | Inaugural lecture |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Public/other audiences |
Results and Impact | I gave my professorial inaugural lecture in Nov 2016, which was attended by a mixed audience, from school pupils to members of the public, along with university students and colleagues. Attendance was around 110. |
Year(s) Of Engagement Activity | 2016 |