Microfluidics has been the key component for many applications, including biomedical devices, chemical processors, microactuators, and even wearable devices. This technology relies on soft lithography fabrication which requires cleanroom facilities. Although popular, this method is expensive and labor-intensive. Furthermore, current conventional microfluidic chips precludes reconfiguration, making reiterations in design very time-consuming and costly. To address these intrinsic drawbacks of microfabrication, we present an alternative solution for the rapid prototyping of microfluidic elements such as microtubes, valves, and pumps. In addition, we demonstrate how microtubes with channels of various lengths and cross-sections can be attached ...
Microfluidics devices have high importance in fields such as bioanalysis because these devices have ...
The development of microfluidic devices is an iterative process that involves series of improvements...
Soft lithography is an alternative to silicon-based micromachining that uses replica molding of nont...
Through developments in 3D fabrication technologies in recent years, we can now build and characteri...
Hybrid or hierarchical nanomaterials with precisely controlled size, shape, and composition have pot...
Most of the available microvalves include complicated fabrication steps and multiple materials. We p...
Microfluidic devices developed in the early 1990s were fabricated from silicon and glass using photo...
Tubular structures are fundamental constituents of plant, animal and human tissues. Synthetically pr...
Soft materials tubes and their formation have important implications in a wide range of applications...
Our capacity to create and characterise structures with 3D spatial control ranging from molecular sc...
Microfluidics and other fluid-handling technologies are valuable tools both for biochemical assays a...
Microfluidics is an engineering tool used to control and manipulate fluid flows, with practical appl...
Department of Mechanical EngineeringMany studies have shown that a fluid is essential for processing...
A novel and simple method for the rapid fabrication of microfluidic networks is presented. A silicon...
Microfluidics has grown into a flourish field that holds the promise to offer better solutions for v...
Microfluidics devices have high importance in fields such as bioanalysis because these devices have ...
The development of microfluidic devices is an iterative process that involves series of improvements...
Soft lithography is an alternative to silicon-based micromachining that uses replica molding of nont...
Through developments in 3D fabrication technologies in recent years, we can now build and characteri...
Hybrid or hierarchical nanomaterials with precisely controlled size, shape, and composition have pot...
Most of the available microvalves include complicated fabrication steps and multiple materials. We p...
Microfluidic devices developed in the early 1990s were fabricated from silicon and glass using photo...
Tubular structures are fundamental constituents of plant, animal and human tissues. Synthetically pr...
Soft materials tubes and their formation have important implications in a wide range of applications...
Our capacity to create and characterise structures with 3D spatial control ranging from molecular sc...
Microfluidics and other fluid-handling technologies are valuable tools both for biochemical assays a...
Microfluidics is an engineering tool used to control and manipulate fluid flows, with practical appl...
Department of Mechanical EngineeringMany studies have shown that a fluid is essential for processing...
A novel and simple method for the rapid fabrication of microfluidic networks is presented. A silicon...
Microfluidics has grown into a flourish field that holds the promise to offer better solutions for v...
Microfluidics devices have high importance in fields such as bioanalysis because these devices have ...
The development of microfluidic devices is an iterative process that involves series of improvements...
Soft lithography is an alternative to silicon-based micromachining that uses replica molding of nont...