Add to ORKGActive nematics are the nonequilibrium analog of passive liquid crystals in which anisotropic units consume free energy to drive emergent behavior. Similar to liquid crystal (LC) molecules in displays, ordering and dynamics in active nematics are sensitive to boundary conditions; however, unlike passive liquid crystals, active nematics, such as those composed of living matter, have the potential to regulate their boundaries through self-generated stresses. Here, using bacterial biofilms confined by a hydrogel as a model system, we show how a three-dimensional, living nematic can actively shape itself and its boundary in order to regulate its internal architecture through growth-induced stresses. We show that biofilms exhibit a sharp transit...
Active matter exemplified by suspensions of motile bacteria or synthetic self-propelled particles ex...
Bacterial biofilms often spread forming sheets on surfaces and filaments in fluids. Such sheets and ...
From the mitotic spindle up to tissues and biofilms, many biological systems behave as active drople...
Active nematics are the nonequilibrium analog of passive liquid crystals in which anisotropic units ...
Growing tissue and bacterial colonies are active matter systems where cell divisions and cellular mo...
Biofilms are aggregates of bacterial cells surrounded by an extracellular matrix. Much progress has ...
Surface-attached bacterial biofilms are self-replicating active liquid crystals and the dominant for...
© 2019 American Physical Society. Bacterial biofilms represent a major form of microbial life on Ear...
Interaction between active materials and the boundaries of geometrical confinement is key to many em...
How a single bacterium becomes a colony of many thousand cells is important in biomedicine and food ...
AbstractBacteria often inhabit and exhibit distinct dynamical behaviors at interfaces, but the physi...
Biofilms are antibiotic-resistant bacterial aggregates that grow on moist surfaces and can trigger h...
Biofilms are communities of bacteria adhered to surfaces. Recently, biofilms of rod-shaped bacteria ...
Biofilms, bacterial communities of cells encased by a self-produced matrix, exhibit a variety of thr...
Biofilms are bacterial aggregates encased in a self-produced polymeric matrix which attach to moist ...
Active matter exemplified by suspensions of motile bacteria or synthetic self-propelled particles ex...
Bacterial biofilms often spread forming sheets on surfaces and filaments in fluids. Such sheets and ...
From the mitotic spindle up to tissues and biofilms, many biological systems behave as active drople...
Active nematics are the nonequilibrium analog of passive liquid crystals in which anisotropic units ...
Growing tissue and bacterial colonies are active matter systems where cell divisions and cellular mo...
Biofilms are aggregates of bacterial cells surrounded by an extracellular matrix. Much progress has ...
Surface-attached bacterial biofilms are self-replicating active liquid crystals and the dominant for...
© 2019 American Physical Society. Bacterial biofilms represent a major form of microbial life on Ear...
Interaction between active materials and the boundaries of geometrical confinement is key to many em...
How a single bacterium becomes a colony of many thousand cells is important in biomedicine and food ...
AbstractBacteria often inhabit and exhibit distinct dynamical behaviors at interfaces, but the physi...
Biofilms are antibiotic-resistant bacterial aggregates that grow on moist surfaces and can trigger h...
Biofilms are communities of bacteria adhered to surfaces. Recently, biofilms of rod-shaped bacteria ...
Biofilms, bacterial communities of cells encased by a self-produced matrix, exhibit a variety of thr...
Biofilms are bacterial aggregates encased in a self-produced polymeric matrix which attach to moist ...
Active matter exemplified by suspensions of motile bacteria or synthetic self-propelled particles ex...
Bacterial biofilms often spread forming sheets on surfaces and filaments in fluids. Such sheets and ...
From the mitotic spindle up to tissues and biofilms, many biological systems behave as active drople...