Sentence examples for gel shell from inspiring English sources

This innovative system features the design of microcapsules with oil core and silica gel shell.

In this work we present a novel microencapsulation strategy, utilizing coaxial flow-focusing droplet microfluidics to fabricate microcapsules with liquid core and poly ethylene glycol) (PEG) gel shell.

It is important that the gel shell is infiltrative to many species to allow their further growth therein by specific interaction.

The gel shell with positively charged functional groups is infiltrative, and then a diversity of species can be loaded into the gel by electrostatic interaction.

Mass growth on cylindrical and spherical substrates is a phenomenon which can be related to the biochemical creation of an elastic actin gel shell by polymerization and cross linking of actin filaments either in vivo on bacteria cylindrical surfaces as a means for their motility or in vitro on spherical beads as a means for experimentally studying the previous in vivo case.

This concept can be applied to other gel shells and grown materials expecting a new family of composite hollow spheres.

In addition, the microfluidic templating allows us to form complex particle morphologies such as hollow gel shells, anisotropic microgels, or multi-layered microgel capsules.

The miniaturisation of assays into pico to femtoliter compartments (emulsion droplets, vesicles or gel-shell beads) makes directed evolution campaigns practically more straightforward than current large scale industrial screening that requires liquid handling equipment and much manpower.

In this review, the latest fabrication strategies on how to encapsulate living cells with functional shells based on the diversity of artificial shells are discussed: hydrogel matrix shells, sol-gel shells, polymeric shells, and induced mineral shells.

Particles with the aforementioned properties often have a core shell morphology and are composed from solid hydrophobic cores providing necessary mechanical properties and soft, hydrophilic, gel-like shells which swell in water and contain chemical groups suitable for covalent immobilization of biomacromolecules.

T2-weighted fat-saturated coronal (a) and silicone-only axial (b) MR images of the same patient with silicone gel-filled implants show a hypointense line running from the periphery, which is perpendicular to the normal intact left silicone gel-filled implant shell, suggestive of a radial fold (arrow).