Address
Colney Lane
Norwich
Norfolk
NR4 7UG United Kingdom
Contact
Dannielle Cox-Pridmore+447715903420
D.cox-pridmore@uea.ac.uk
Website
Chemical-free bacteria repellant physical surface
Chemical-free physical surface that reduces bacterial adhesion and biofilm formation
Chemical-free, Sustainable, Easy Integration into existing systems, reduced operational costs, reduced chemical and antibiotic use
Technology:
Microorganisms:
Application:
Development stage:
- Infection prevention
- Antimicrobial stewardship
- Microbial diagnostics
- Antimicrobial compound/strategy
- Removal antibiotics/bacteria
Microorganisms:
- Bacteria
- Viruses
- Fungi
- Yeasts
- Parasites
Application:
- Human
- Veterinary
- AgriFood
- Environmental
- Other
Development stage:
- Research
- Development
- Validation
- Market entry
- Marketed product
Organization:
Partnering:
Funding organisation:
Infectious disease area:
Geographic origin:
- Academia
- Company
- Institute
- NGO
- Government
Partnering:
- License
- Co-develop
- Outsource
- Joint Venture
- Sell
Funding organisation:
- OTHER / NA
- CARB-X
- FIND
- GARDP
- REPAIR
Infectious disease area:
- UTI
- STI
- BSI
- RTI
- GII
- SSTI
- CNSI
- IAI
- SSI
Geographic origin:
- Eurasia
- North America
- South America
- Africa
- Oceania
License from, Co-develop, Joint Venture
University of East Anglia, part of the Norwich Research Park
Exploring a range of surfaces with antimicrobial and antiadhesion properties
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