Litcius/Paper detail

Viability determination of Bacillus sphaericus after encapsulation in hydrogel for self-healing concrete via microcalorimetry and in situ oxygen concentration measurements

Xuejiao Zhu, Arn Mignon, Søren Dollerup Nielsen, Silvia E. Zieger, Klaus Koren, Nico Boon, Nele De Belie

2021Cement and Concrete Composites69 citationsDOIOpen Access PDF

Abstract

Techniques for bacteria based self-healing concrete are currently limited to indirect bacterial activity measurements and visual crack closing effects after self-healing has occurred. In the present study, direct and reliable bacteria survival measurements after encapsulation in protective carriers were carried out by utilizing microcalorimetry analysis. After further incorporation in mortar oxygen consumption was determined by use of an optical oxygen sensing system. The microscope analysis showed that a 90% sporulation of Bacillus sphaericus was achieved after 24 h incubation. Microcalorimeter measurements detected the heat generation from microbial activity on the third day of incubation which provides direct evidence that bacteria can be activated after encapsulation inside the hydrogel. The application of the O2 sensing film on cracked mortar showed a high oxygen concentration reduction (66%) near the crack opening. This confirmed the activation of B. sphaericus and use of oxygen as an electron acceptor for their metabolism after incorporation inside mortar specimens.

Topics & Concepts

Bacillus sphaericusIsothermal microcalorimetryOxygenMortarIncubationMetabolic activityBacteriaScanning electron microscopeMaterials scienceSelf-healing hydrogelsSelf-healingBiochemical oxygen demandEndosporeChemistryComposite materialMicrobiologyBacillalesChemical oxygen demandSporeBiologyWaste managementBiochemistryEnthalpyPolymer chemistryOrganic chemistryBiological systemPhysicsWastewaterPathologyGeneticsBacillus subtilisEngineeringAlternative medicineQuantum mechanicsMedicineMicrobial Applications in Construction MaterialsConcrete and Cement Materials ResearchCorrosion Behavior and Inhibition