Add to ORKGWe have created a 4 × 4 droplet bilayer array comprising light-activatable aqueous droplet bio-pixels. Aqueous droplets containing bacteriorhodopsin (bR), a light-driven proton pump, were arranged on a common hydrogel surface in lipid-containing oil. A separate lipid bilayer formed at the interface between each droplet and the hydrogel; each bilayer then incorporated bR. Electrodes in each droplet simultaneously measured the light-driven proton-pumping activities of each bio-pixel. The 4 × 4 array derived by this bottom-up synthetic biology approach can detect grey-scale images and patterns of light moving across the device, which are transduced as electrical current generated in each bio-pixel. We propose that synthetic biological light-ac...
Communication amongst droplets via reconfigurable connections enables next generations of “smart” ma...
The development of microengineered hydrogels co-cultured with cells in vitro could advance in vivo b...
Synthetic tissues can be generated by forming networks of aqueous droplets in lipid-containing oil. ...
We have created a 4 × 4 droplet bilayer array comprising light-activatable aqueous droplet bio-pixel...
Recently, we demonstrated that submicrolitre aqueous droplets submerged in an apolar liquid containi...
An aqueous droplet in a solution of lipids in oil acquires a lipid monolayer coat, and two such drop...
In this thesis, biological activity is recreated from the bottom-up. By putting together carefully-d...
We describe a protocol for forming an artificial lipid bilayer by contacting nanoliter aqueous dropl...
We describe a protocol for forming an artificial lipid bilayer by contacting nanoliter aqueous dropl...
We describe the formation of artificial bilayer lipid membranes (BLMs) by the controlled, electrical...
Networks of droplets, in which aqueous compartments are separated by lipid bilayers, have shown grea...
In this study, we introduce an optofluidic method for the rapid construction of large-area cell-size...
This dissertation presents a new approach for developing a biologically inspired photo-electro-chemo...
An aqueous droplet in a solution of lipid in oil acquires a lipid monolayer coat. When two such dro...
An aqueous droplet in a solution of lipid in oil acquires a lipid monolayer coat. When two such drop...
Communication amongst droplets via reconfigurable connections enables next generations of “smart” ma...
The development of microengineered hydrogels co-cultured with cells in vitro could advance in vivo b...
Synthetic tissues can be generated by forming networks of aqueous droplets in lipid-containing oil. ...
We have created a 4 × 4 droplet bilayer array comprising light-activatable aqueous droplet bio-pixel...
Recently, we demonstrated that submicrolitre aqueous droplets submerged in an apolar liquid containi...
An aqueous droplet in a solution of lipids in oil acquires a lipid monolayer coat, and two such drop...
In this thesis, biological activity is recreated from the bottom-up. By putting together carefully-d...
We describe a protocol for forming an artificial lipid bilayer by contacting nanoliter aqueous dropl...
We describe a protocol for forming an artificial lipid bilayer by contacting nanoliter aqueous dropl...
We describe the formation of artificial bilayer lipid membranes (BLMs) by the controlled, electrical...
Networks of droplets, in which aqueous compartments are separated by lipid bilayers, have shown grea...
In this study, we introduce an optofluidic method for the rapid construction of large-area cell-size...
This dissertation presents a new approach for developing a biologically inspired photo-electro-chemo...
An aqueous droplet in a solution of lipid in oil acquires a lipid monolayer coat. When two such dro...
An aqueous droplet in a solution of lipid in oil acquires a lipid monolayer coat. When two such drop...
Communication amongst droplets via reconfigurable connections enables next generations of “smart” ma...
The development of microengineered hydrogels co-cultured with cells in vitro could advance in vivo b...
Synthetic tissues can be generated by forming networks of aqueous droplets in lipid-containing oil. ...