Targeting Bacterial Nanocellulose Properties through Tailored Downstream Techniques

Everton Henrique Da Silva Pereira, Marija Mojicevic, Cuneyt Erdinc Tas, Eduardo Lanzagorta Garcia, Margaret Brennan Fournet

Research output: Contribution to journalArticlepeer-review

Abstract

Bacterial nanocellulose (BNC) is a biodegradable polysaccharide with unique properties that make it an attractive material for various industrial applications. This study focuses on the strain Komagataeibacter medellinensis ID13488, a strain with the ability to produce high yields of BNC under acidic growth conditions and a promising candidate to use for industrial production of BNC. We conducted a comprehensive investigation into the effects of downstream treatments on the structural and mechanical characteristics of BNC. When compared to alkaline-treated BNC, autoclave-treated BNC exhibited around 78% superior flexibility in average, while it displayed nearly 40% lower stiffness on average. An SEM analysis revealed distinct surface characteristics, indicating differences in cellulose chain compaction. FTIR spectra demonstrated increased hydrogen bonding with prolonged interaction time with alkaline solutions. A thermal analysis showed enhanced thermal stability in alkaline-treated BNC, withstanding temperatures of nearly 300 °C before commencing degradation, compared to autoclaved BNC which starts degradation around 200 °C. These findings provide valuable insights for tailoring BNC properties for specific applications, particularly in industries requiring high purity and specific mechanical characteristics.

Original languageEnglish
Article number678
JournalPolymers
Volume16
Issue number5
DOIs
Publication statusPublished - Mar 2024

Keywords

  • bacterial nanocellulose
  • biopolymers
  • downstream
  • Komagateibacter
  • materials
  • membranes
  • treatment

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