dr tony kenyon
Research
Themes
- 19
- Materials
- 37
- Nanotechnology
Contacts
- Dr
- Tony
- Joseph
- Kenyon
- Dr Tony Kenyon
- Tel: 020 7679 3270
- Ex: 33270
- a.kenyon@ucl.ac.uk
- Website
- https://iris.ucl.ac.uk/iris/extResource/image/01/AJKEN86
- 1992-03-01
Address
- 1733
- 1122
- Department of Electronic & Electrical Engineering
- UCL
- London
- WC1E 7JE
Appointment
- ACARDR
- 1992-03-01
- 1
- Reader in Photonic Materials
- EE
- Dept of Electronic & Electrical Eng
- ENG
- Faculty of Engineering Science
Joined UCL
- 1992-03-01
Research Summary
My group's research covers nanostructured materials for photonics, plasmonics and electronics, self-assembled nanostructures, and new devices and materials for resistive switching - a sub-set of memristors.
Recent successes include: the development of a novel synthesis technique to form highly monodisperse linear arrays of metallic nanoparticles with extreme aspect ratios (Advanced Materials, 2012); realisation of fast, low-energy resistive switching in silicon oxide, opening up the possibility of a new memory technology to replace Flash devices (Journal of Applied Physics vol 111 (2012)); the development of erbium-doped silicon-based electroluminescent devices for on-chip integration (Optics Express vol 19 (2011) & Journal of Applied Physics vol 106 (2009)).
Research Activities
- 1149
- Nanotechnology
- 4769
- Photonic Materials
11 - 20 of 150 Publications
Continuous hydrothermal synthesis of surface-functionalised nanophosphors for biological imaging
Journal article
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Editorial
Journal article
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Electrically tailored resistance switching in silicon oxide
Journal article
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Erratum: Self-assembled ultrahigh aspect ratio silver nanochains (Advanced Materials (2012) 24 (5227-5235) DOI: 10.1002/adma.201202005)
Journal article
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Picosecond time-resolved study of blue-green emission from Si nanoclusters embedded in a SiO2 matrix
Conference
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Structural factors impacting carrier transport and electroluminescence from Si nanocluster- sensitized Er ions
Journal article
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Publisher: Cambridge University Press
Investigation of quartz grain surface textures by atomic force microscopy for forensic analysis
Journal article
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Resistive switching in silicon suboxide films
Journal article
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Academic Background
-
Award YearQualificationInstitution
-
1992DPhilUniversity of Sussex
-
1986BScUniversity of Sussex
Biography
BSc Chemical Physics (Sussex) 1986
DPhil Chemical Physics (Sussex) 1992
UCL 1992 -
Reader in Photonic Materials 2010-
Fellow of the Institute of Physics (FInstP)
Chartered Physicist (CPhys)
Member of the Institution of Engineering and Technology (MIET)
Member of the IEEE (MIEEE)
Additional Information
- CMR
- Silicon photonics
Collaborators
- CHIRJ93
- dr cyrus hirjibehedin
- MHAUS91
- prof michael hausser
