Sensors (May 2022)

Impedance Characteristics of Monolayer and Bilayer Graphene Films with Biofilm Formation and Growth

  • Ryoichi Nakagawa,
  • Kai Saito,
  • Hideyuki Kanematsu,
  • Hidekazu Miura,
  • Masatou Ishihara,
  • Dana M. Barry,
  • Takeshi Kogo,
  • Akiko Ogawa,
  • Nobumitsu Hirai,
  • Takeshi Hagio,
  • Ryoichi Ichino,
  • Masahito Ban,
  • Michiko Yoshitake,
  • Stefan Zimmermann

DOI
https://doi.org/10.3390/s22093548
Journal volume & issue
Vol. 22, no. 9
p. 3548

Abstract

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Biofilms are the result of bacterial activity. When the number of bacteria (attached to materials’ surfaces) reaches a certain threshold value, then the bacteria simultaneously excrete organic polymers (EPS: extracellular polymeric substances). These sticky polymers encase and protect the bacteria. They are called biofilms and contain about 80% water. Other components of biofilm include polymeric carbon compounds such as polysaccharides and bacteria. It is well-known that biofilms cause various medical and hygiene problems. Therefore, it is important to have a sensor that can detect biofilms to solve such problems. Graphene is a single-atom-thick sheet in which carbon atoms are connected in a hexagonal shape like a honeycomb. Carbon compounds generally bond easily to graphene. Therefore, it is highly possible that graphene could serve as a sensor to monitor biofilm formation and growth. In our previous study, monolayer graphene was prepared on a glass substrate by the chemical vapor deposition (CVD) method. Its biofilm forming ability was compared with that of graphite. As a result, the CVD graphene film had the higher sensitivity for biofilm formation. However, the monolayer graphene has a mechanical disadvantage when used as a biofilm sensor. Therefore, for this new research project, we prepared bilayer graphene with high mechanical strength by using the CVD process on copper substrates. For these specimens, we measured the capacitance component of the specimens’ impedance. In addition, we have included a discussion about the possibility of applying them as future sensors for monitoring biofilm formation and growth.

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