Add to ORKGStimuli-responsive materials have gained much attention recently as new means for fluid flow control within the field of microfluidics. The ability to control of droplets and polymeric “vehicles” in a contactless manner within microfluidic chips offers new and exciting possibilities such as directed transport of molecular cargo to desired destinations and dynamic sensing of the fluidic environment during movement
We demonstrate microscopic fluidic control and memory elements through the use of an aqueous viscoel...
Our capacity to create and characterise structures with 3D spatial control ranging from molecular sc...
Through developments in fabrication technologies in recent years, it is now possible to build and ch...
Stimuli-responsive materials have gained much attention recently as new means for fluid flow control...
Integration of stimuli-responsive materials into microfluidic systems provides a means to locally ma...
Microfluidics refers to devices and methods for controlling and manipulating fluid flows at length s...
The requirement of significant off-chip fluid manipulation using high-cost mechanical components has...
152 p.The manipulation of small amounts of fluids in the order of nano and pico liters has emerged a...
Responsive polymeric, micron-sized materials are described that can locally manipulate fluids by rev...
Research in the microfluidic sector has seen serious growth since the 1980s and much progress has be...
Through developments in 3D fabrication technologies in recent years, it is now possible to build and...
The realisation of autonomous chemical sensing platforms capable of operating independently for long...
The integration of smart stimulus-responsive polymers as functional elements within microfluidic dev...
We demonstrate microscopic fluidic control and memory elements through the use of an aqueous viscoel...
Our capacity to create and characterise structures with 3D spatial control ranging from molecular sc...
Through developments in fabrication technologies in recent years, it is now possible to build and ch...
Stimuli-responsive materials have gained much attention recently as new means for fluid flow control...
Integration of stimuli-responsive materials into microfluidic systems provides a means to locally ma...
Microfluidics refers to devices and methods for controlling and manipulating fluid flows at length s...
The requirement of significant off-chip fluid manipulation using high-cost mechanical components has...
152 p.The manipulation of small amounts of fluids in the order of nano and pico liters has emerged a...
Responsive polymeric, micron-sized materials are described that can locally manipulate fluids by rev...
Research in the microfluidic sector has seen serious growth since the 1980s and much progress has be...
Through developments in 3D fabrication technologies in recent years, it is now possible to build and...
The realisation of autonomous chemical sensing platforms capable of operating independently for long...
The integration of smart stimulus-responsive polymers as functional elements within microfluidic dev...
We demonstrate microscopic fluidic control and memory elements through the use of an aqueous viscoel...
Our capacity to create and characterise structures with 3D spatial control ranging from molecular sc...
Through developments in fabrication technologies in recent years, it is now possible to build and ch...