Wetting properties of biofilm-coated surfaces produced at controlled shear flow conditions
- 1Aristotle University of Thessaloniki, Chemistry, Greece (federecu@chem.auth.gr)
- 2Department of Chemicals, Materials and Production Engineering, University of Naples, Federico II, Italy
Biofilms prevention and removal are crucial in many industrial and medical applications. Their complex and cohesive structure provides resistance to cleaning even to strong disinfectants. A key factor for their behavior is the wetting properties of their surfaces.
The main goal of this work is to study the wetting properties of biofilms produced by bacteria Pseudomonas fluorescens. Biofilms are obtained on glass coupons under well controlled flow conditions, using custom-made flow cell devices. Different nutrient concentration and shear flow conditions are investigated.
Biofilm wetting properties are examined under imposed external body forces (forced wetting) through a specialized device, named Kerberos®. Kerberos® is capable of subjecting sessile droplets to varying tilting angles and centrifugal forces while monitoring the variation of the droplet shape in X, Y and Z-directions through three Wi-Fi cameras. Wetting experiments are carried out using water-based solution (dye solution) droplets on biofilm-coated glass coupons. In this work, spreading/sliding behaviour of droplets are investigated only on horizontal substrates (no tilting) under the action of centrifugal forces. Apart from wetting properties, biofilm growth kinetics and surface morphology at different nutrient and shear flow conditions are also assessed.
Results show that, according to the different growth conditions, biofilms present different wetting properties. At lower nutrient concentration and shear flow conditions, spreading and sliding behaviour are similar to that observed in glass coupons in the absence of biofilm. At higher nutrient and shear flow conditions, spontaneous wicking of the biofilm occurs the moment of droplet deposition on the biofilm leading to irregular and jagged shapes of droplets, while on the contrary water droplets look like smooth spherical sections on pure glass. The spontaneous wicking affects the droplet initial shape and so the wetting behaviour during the subsequent rotation tests. In each examined condition, biofilms show hydrophilic properties.
How to cite: Recupido, F., Petala, M., Kostoglou, M., Caserta, S., Guido, S., and Karapantsios, T. D.: Wetting properties of biofilm-coated surfaces produced at controlled shear flow conditions, biofilms 9 conference, Karlsruhe, Germany, 29 September–1 Oct 2020, biofilms9-140, https://doi.org/10.5194/biofilms9-140, 2020