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Aerographite vs. Graphite: Investigating the Role of Electrode Architecture in Hβ-Mediated Electroautotrophic Biofilms
Citation Link: https://doi.org/10.15480/882.16822
Type
Dataset
Date Issued
2026-03-05
Researcher
Data Curator
Other Contributor
Other Contributor
Language
English
Abstract
This study investigates biofilm development by ππΆπ±π³πͺπ’π·πͺπ₯πΆπ΄ π―π¦π€π’π΅π°π³ H16 on Aerographite, an ultralow-density carbon foam (3-6 mg cmβ»Β³, porosity >99%) with a hierarchical tetrapodal pore network, as a cathode material in microfluidic bioelectrochemical systems and compares it to plain graphite.
Subjects
Aerographite
biofilms
porous electrodes
bioelectrochemical system
smart reactors
DDC Class
660.6: Biotechnology
Funding Organisations
More Funding Information
This project is funded by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) β SFB 1615 β 503850735.
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01_Aerographite-Geometries.csv
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1.64 KB
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CSV
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02_Electrical-Conductivity.csv
Size
903 B
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CSV
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03_TGA_Aerographite-Q3LC27.txt
Size
860.85 KB
Format
Text
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Name
04_TGA_Graphite.txt
Size
857.03 KB
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Text
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05_Aerographite_Electroactive_Surface_Area_CV_Q2LC3.csv
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26.82 KB
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CSV
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06_Aerographite_Electroactive_Surface_Area_CV_Q3LC9.csv
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26.36 KB
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CSV
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07_Aerographite_Electroactive_Surface_Area_CV_Q3LC15.csv
Size
26.48 KB
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CSV
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08_Graphite_Biovolume_Growth.csv
Size
830 B
Format
CSV
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09_Aerographite_Biovolume_Growth.csv
Size
2.08 KB
Format
CSV
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11_Tetrapodal_dimensions_from_SEM.csv
Size
262 B
Format
CSV