Synthesis and characterization of proton-conducting membranes based on bacterial cellulose and human nail keratin

Synthesis and characterization of proton-conducting membranes based on bacterial cellulose and human nail keratin

In this work, proton-conducting membranes have been prepared by entrapping human nail keratin in bacterial cellulose at different mass ratios. Bacterial cellulose was obtained by fermenting coconut water with the bacterium, and keratin was obtained from human nails. The membrane is produced by the b...

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Veröffentlicht in:e-Polymers 2023-08, Vol.23 (1), p.205-8
Hauptverfasser: Gustian, Irfan, Simalango, Anastasia, Triawan, Deni Agus, Hadi Putranto, Agus Martono, Asdim
Format: Artikel
Sprache:eng
Schlagworte:
Bacteria
bacterial cellulose
Caustic soda
Cellulose
Electrolytes
Fuel cells
human nail
Hydrogen
Keratin
Mass ratios
Materials science
Mathematics
membrane
Membranes
Polymers
proton conductivity
Protons
Temperature
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Zusammenfassung:In this work, proton-conducting membranes have been prepared by entrapping human nail keratin in bacterial cellulose at different mass ratios. Bacterial cellulose was obtained by fermenting coconut water with the bacterium, and keratin was obtained from human nails. The membrane is produced by the blending and heating process at a temperature of 40°C. FTIR spectroscopy showed the interaction between bacterial cellulose and human nail keratin at a peak area of 3,000–2,000 cm . The X-ray diffraction analysis has confirmed the effect of keratin mass on the diffractogram pattern of the membranes. The maximum proton conductivity has been measured as 4.572 × 10  S·cm at 25°C and produces a degree of swelling of 32.50% for a mass ratio of bacterial cellulose/human nail keratin 4:1.
ISSN:1618-7229
2197-4586
1618-7229
DOI:10.1515/epoly-2023-0040