Add to ORKGFigure Persented: Layer-by-layer encapsulation of living biological cells and other microorganisms via sequential adsorption of oppositely charged functional nanoscale components is a promising instrument for engineering cells with enhanced properties and artificial microorganisms. Such nanoarchitectural shells assembled in mild aqueous conditions provide cells with additional abilities, widening their functionality and applications in artificial spore formation, whole-cell biosensors, and fabrication of three-dimensional multicellular clusters. © 2012 American Chemical Society
crystalline cell surface layers (S-layers); bacterial surface layers; self-assembly; nanobiotechnolo...
In nano- or microparticulate drug delivery, both control of the drug release and interaction of the ...
Nanomaterials have found many important applica-tions in biomedical, pharmaceutical, electronic, and...
Figure Persented: Layer-by-layer encapsulation of living biological cells and other microorganisms v...
Cell-surface engineering has been attracting increased interest in the field of biotechnology, tissu...
One of the most promising tools for future applications in science and medicine is the use of nanote...
The electrostatic layer-by-layer (LbL) self-assembly of polyelectrolyte’s has shown applications in ...
Surface engineering is of the utmost significance in the conception of devices with an improved biol...
Surface engineering is of the utmost significance in the conception of devices with an improved biol...
One of the most promising tools for future applications in science and medicine is the use of nanote...
Various techniques for fabrication of multilayer organic films onto solid templates have been studie...
Achieving surface design and control of biomaterial scaffolds with nanometer- or micrometer-scaled f...
Devices prepared by bottom-up strategies have been proposed for several biomedical applications. A p...
crystalline cell surface layers (S-layers); bacterial surface layers; self-assembly; nanobiotechnolo...
Single-cell nanoencapsulation, forming cell-in-shell structures, provides chemical tools for endowin...
crystalline cell surface layers (S-layers); bacterial surface layers; self-assembly; nanobiotechnolo...
In nano- or microparticulate drug delivery, both control of the drug release and interaction of the ...
Nanomaterials have found many important applica-tions in biomedical, pharmaceutical, electronic, and...
Figure Persented: Layer-by-layer encapsulation of living biological cells and other microorganisms v...
Cell-surface engineering has been attracting increased interest in the field of biotechnology, tissu...
One of the most promising tools for future applications in science and medicine is the use of nanote...
The electrostatic layer-by-layer (LbL) self-assembly of polyelectrolyte’s has shown applications in ...
Surface engineering is of the utmost significance in the conception of devices with an improved biol...
Surface engineering is of the utmost significance in the conception of devices with an improved biol...
One of the most promising tools for future applications in science and medicine is the use of nanote...
Various techniques for fabrication of multilayer organic films onto solid templates have been studie...
Achieving surface design and control of biomaterial scaffolds with nanometer- or micrometer-scaled f...
Devices prepared by bottom-up strategies have been proposed for several biomedical applications. A p...
crystalline cell surface layers (S-layers); bacterial surface layers; self-assembly; nanobiotechnolo...
Single-cell nanoencapsulation, forming cell-in-shell structures, provides chemical tools for endowin...
crystalline cell surface layers (S-layers); bacterial surface layers; self-assembly; nanobiotechnolo...
In nano- or microparticulate drug delivery, both control of the drug release and interaction of the ...
Nanomaterials have found many important applica-tions in biomedical, pharmaceutical, electronic, and...