Low-dimensional hybrid materials for energy storage technologies
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Low-dimensional hybrid materials for energy storage technologies
CoPED ID
ef2084a4-2f30-482b-a3c4-c402d0d45523
Status
Active
Value
No funds listed.
Start Date
Sept. 30, 2019
End Date
Sept. 29, 2023
Description
In this project, two dimensional materials will be combined with zero and one-dimensional solids (quantum dots and carbon nanotubes) to create appropriately structured scaffolds, optimise performance and introduce new functionality. Nanomaterials will be produced, thoroughly characterised with a spectrum of analytical techniques and incorporated into novel hierarchically structured electrodes tailored for specific applications. Electrodes will be structurally characterised and incorporated into cells for evaluation. Use of multiple materials opens possibilities of developing new functionality, such as combined supercapacitor/battery (supercapattery) behaviour.
| Durham University | LEAD_ORG |
| Michael Hunt | SUPER_PER |
| Rhys Williams | STUDENT_PER |
Subjects by relevance
- Optimisation
- Nanotubes
- Electrodes
- Nanomaterials
- Carbon nanotubes
- Nanotechnology
Extracted key phrases
- Dimensional hybrid material
- Dimensional material
- Energy storage technology
- Dimensional solid
- Multiple material
- Low
- New functionality
- Quantum dot
- Carbon nanotube
- Project
- Structured scaffold
- Specific application
- Electrode