3D printed electrochemical devices.
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3D printed electrochemical devices.
CoPED ID
ebf2bf92-89db-4856-a5b7-efa1a221ef6f
Status
Active
Value
No funds listed.
Start Date
Jan. 1, 2020
End Date
Sept. 29, 2023
Description
In this project 3D printed electrochemical devices will be produced for sensing and fuel sell applications. Composites of nanomaterials and polymers will be tested for producing flexible devices in micro electrode formats.
An application will be towards microbial sensing and fuel cell applications using the redox activity of biofilms. In general, biofilm build-up is a problem in various areas such as stagnant water, pipeworks with small boreholes, water systems amongst others. Detecting and preventing biofilm formation in the first place is essential as once the biofilm forms antibiotics and biocides become less effective.
| Durham University | LEAD_ORG |
| Ritu Kataky | SUPER_PER |
| Alexander Britten | STUDENT_PER |
Subjects by relevance
- Biofilms
- Polymers
- Electrochemistry
- Microbiology
- Small water systems
Extracted key phrases
- Electrochemical device
- Flexible device
- Fuel sell application
- Fuel cell application
- Project 3d
- Biofilm formation
- 3D
- Micro electrode format
- Water system
- Stagnant water
- Microbial sensing
- Redox activity
- Small borehole