University of Exeter - Equipment Account
Lead Research Organisation:
UNIVERSITY OF EXETER
Department Name: UNLISTED
Abstract
Abstracts are not currently available in GtR for all funded research. This is normally because the abstract was not required at the time of proposal submission, but may be because it included sensitive information such as personal details.
People |
ORCID iD |
Nicholas Talbot (Principal Investigator) |
Publications
A. Alexeev
(2017)
Tunable Dielectric Metadevices Enabled by Phase-Change Materials
A. Alexeev
(2017)
Tunable dielectric metadevices enabled by phase-change materials
Alexeev AM
(2017)
Tunable Dielectric Metadevices Enabled by Phase-Change Materials
Bezares FJ
(2017)
Intrinsic Plasmon-Phonon Interactions in Highly Doped Graphene: A Near-Field Imaging Study.
in Nano letters
Borzenets I
(2015)
High Efficiency CVD Graphene-lead (Pb) Cooper Pair Splitter
Borzenets IV
(2016)
High Efficiency CVD Graphene-lead (Pb) Cooper Pair Splitter.
in Scientific reports
Bukin N
(2016)
Time-resolved imaging of magnetic vortex dynamics using holography with extended reference autocorrelation by linear differential operator.
in Scientific reports
Carrillo SG
(2016)
Design of practicable phase-change metadevices for near-infrared absorber and modulator applications.
in Optics express
De Sanctis A
(2017)
Extraordinary linear dynamic range in laser-defined functionalized graphene photodetectors.
in Science advances
De Sanctis A
(2017)
Functionalised hexagonal-domain graphene for position-sensitive photodetectors.
in Nanotechnology
De Sanctis A
(2018)
New routes to the functionalization patterning and manufacture of graphene-based materials for biomedical applications.
in Interface focus
Garcia-Ceuvas Carrillo S
(2016)
Non-volatile Optoelectronic Phase-Change Meta-Displays
Hamilton JK
(2017)
Magnetically controlled ferromagnetic swimmers.
in Scientific reports
Hogan BT
(2017)
Dynamic in-situ sensing of fluid-dispersed 2D materials integrated on microfluidic Si chip.
in Scientific reports
Ke CT
(2016)
Critical Current Scaling in Long Diffusive Graphene-Based Josephson Junctions.
in Nano letters
Lipani L
(2018)
Non-invasive, transdermal, path-selective and specific glucose monitoring via a graphene-based platform.
in Nature nanotechnology
Octon T
(2016)
Fast High-Responsivity Few-Layer MoTe 2 Photodetectors
in Advanced Optical Materials
Octon TJ
(2016)
Photoconductivity of Few-Layer MoTe2
S. Garcia-Cuevas Carrillo
(2016)
Non-Volatile Optoelectronic Phase-Change Meta-Displays
Santiago Garcia-Cuevas-Carrillo
(2017)
Towards A Phase-Change Metamaterial CMY Subtractive Display
Somov A
(2017)
Smart textile: Exploration of wireless sensing capabilities
Thummavichai K
(2017)
Low Temperature Annealing Improves the Electrochromic and Degradation Behavior of Tungsten Oxide (WO x ) Thin Films
in The Journal of Physical Chemistry C
Torres Alonso E
(2016)
Homogeneously Bright, Flexible, and Foldable Lighting Devices with Functionalized Graphene Electrodes.
in ACS applied materials & interfaces
Wang N
(2017)
A generic method to synthesise graphitic carbon coated nanoparticles in large scale and their derivative polymer nanocomposites.
in Scientific reports
Wang N
(2017)
Novel graphitic carbon coated IF-WS 2 reinforced poly(ether ether ketone) nanocomposites
in RSC Advances
Wright CD
(2016)
Phase-change meta-photonics
Description | Flash diffusivity apparatus for thermal conductivity and diffusivity measurements: conductivity of a poly(ether-ether-ketone) (PEEK)- tungsten disulfide WS2 nanocomposite. |
Organisation | Daido Steel Co., Ltd. |
Department | Daido Metal |
Country | United Kingdom |
Sector | Private |
PI Contribution | With this facility, we have significantly enhanced our research capacity, as we can now measure different materials and evaluate their thermal related performance. It is crucial for the future start/stop bearing applications of such nanocomposite bearings that their properties are fully understood. With the commissioning of this equipment at Exeter we were able to co-design and secure funding for this two-year Daido Metal Project which started in September 2015. The project is aiming to develop novel bearing materials where understating and improving their thermal conductivity is essential for automotive-bearing applications to offer reliable, energy saving and the development of low CO2 emission automobiles of tomorrow. |
Collaborator Contribution | The contribution from Daido Metal lies on the other complementary material property assessments, such as tribological properties. The overall high performance of the new bearings depends not only on a single property, but instead on an ideal combination of the thermal, mechanical and tribological properties. Therefore this partnership, with complimentary expertise significantly enhances our research capacity. Daido have also provided expertise and training for our postdoc researcher in how to use their testing facilities and interpret the results. Daido have provided £181,000 for this two-year project. |
Impact | We are in the process of writing joint papers, and a patent application is in progress, subject to Daido's internal process approvals. A manuscript is currently under review, 'Enhanced properties of inorganic fullerene tungsten sulphide nanoparticle reinforced poly (ether ether ketone) nanocomposites'. |
Start Year | 2015 |