Designing of surfaces that can disrupt or improve bacterial colonization through the understanding of interactions between bacteria and various surfaces on biofilm development.
Manipulation or establishment of bacterial communities for functional applications.
Development of biofilm based sensors to detect environmental biofilm presence and growth in real-time.
State-of-the-art assessment tools and technologies aim to allow efficient biofilm-feature related data acquisitions, and improve existing data analysis pipelines for large research datasets.
Register for the webinar HERE The air microbiome, especially in light of Covid-19 transmission, can be managed and influenced for environmental and human...Learn More
Printed food! Why not? 3-min read The founder of 3D food printing startup, Anirudh Agarwal (L), SCELSE research associate, shares his engineering feat with...Learn More
March 25, 2021
Together with the Center for Biofilm Engineering (CBE), Singapore Centre for Environmental Life Sciences Engineering (SCELSE), COST AMiCI Consortium and the ESCMID Study Group for Biofilms (ESGB) we...Learn More
March 9, 2021
[Click here to register] This is the latest in the joint webinar series from National Biofilms Innovation Centre (NBIC), Singapore Centre for Environmental...Learn More