Engineering nanowires in bacteria to elucidate electron transport structural–functional relationships
Publication date
2023-06-02Creators
Myers, Benjamin
Rawson, Frankie
Kovacs, Katalin
Metadata
Show full item recordDescription
Data set associated with the following manuscript: "Engineering nanowires in bacteria to elucidate electron transport structural–functional relationships"
Accepted for publication in Scientific Reports
External URI
Related publication DOI
Subjects
- Electrochemistry
- Bioelectrochemistry
- Molecular microbiology
- Nanobiotechnology
- Atomic force microscopy
- Atomic Force Microscopy, Microbial Nanowires, Bio-electrochemical Systems, Electroactive Bacteria, Electrochemistry
- Q Science::QD Chemistry::QD241 Organic chemistry::QD415 Biochemistry
- Q Science::QR Microbiology::QR 75 Bacteria. Cyanobacteria
Divisions
- University of Nottingham, UK Campus
Deposit date
2023-06-02Data type
Instrument data (AFM, Potentiostat), Sequencing dataContributors
- Catrambone, Francesco
- Allen, Stephanie
- Hill, Phil
Funders
- Biotechnology & biological Sciences Research Council
- Engineering & Physical Sciences Research Council
Grant number
- BB/M008770/1
Collection dates
- 2020- 2023
Coverage
- UK, Germany
Data collection method
Instruments, SequencingResource languages
- en