Add to ORKGThis work describes a convenient, fast and low cost method of embedding a high-conductive and flexible material within microfluidic devices as a means to realize uniform electric fields within 3D cellular microenvironments. Fluidic channels and electrodes are fabricated by traditional soft-lithography in conjunction with chemical etching of PDMS. Devices can be deformable (thus allowing for a combination of electro-mechanical stimulation), they are made from inexpensive materials and easily assembled by hand; this method is thus accessible to a wide range of laboratories and budgets
In this work, using multiple co-flows we demonstrate in-situ encapsulation of nano-particles, liquid...
Cell cultivation devices that mimic the complex microenvironment of cells in the human body are of h...
A revolution in cell culturing has been seen in the last two decades in which 3D culturing became th...
This work describes a convenient, fast and low cost method of embedding a high-conductive and ...
This communication describes a simple, rapid and cost effective method of embedding a conductive and...
This communication describes a simple, rapid and cost effective method of embedding a conductive and...
This communication describes a simple, rapid and cost effective method of embedding a conductive and...
This communication describes a simple, rapid and cost effective method of embedding a conductive and...
Traditional bioreactors for tissue engineering offer interesting perspectives to study cell growth, ...
Traditional bioreactors for tissue engineering offer interesting perspectives to study cell growth, ...
Traditional bioreactors for tissue engineering offer interesting perspectives to study cell growth, ...
This study presents a method of producing flexible electrodes for potentially simultaneously stimula...
We report a simple, low-cost and novel method for constructing three-dimensional (3D) microelectrode...
Microfluidics, with the concept of miniaturization, has been applied to analytical chemistry and bio...
Harnessing the ability to precisely manipulate small volumes of fluids and bioparticles, microfluidi...
In this work, using multiple co-flows we demonstrate in-situ encapsulation of nano-particles, liquid...
Cell cultivation devices that mimic the complex microenvironment of cells in the human body are of h...
A revolution in cell culturing has been seen in the last two decades in which 3D culturing became th...
This work describes a convenient, fast and low cost method of embedding a high-conductive and ...
This communication describes a simple, rapid and cost effective method of embedding a conductive and...
This communication describes a simple, rapid and cost effective method of embedding a conductive and...
This communication describes a simple, rapid and cost effective method of embedding a conductive and...
This communication describes a simple, rapid and cost effective method of embedding a conductive and...
Traditional bioreactors for tissue engineering offer interesting perspectives to study cell growth, ...
Traditional bioreactors for tissue engineering offer interesting perspectives to study cell growth, ...
Traditional bioreactors for tissue engineering offer interesting perspectives to study cell growth, ...
This study presents a method of producing flexible electrodes for potentially simultaneously stimula...
We report a simple, low-cost and novel method for constructing three-dimensional (3D) microelectrode...
Microfluidics, with the concept of miniaturization, has been applied to analytical chemistry and bio...
Harnessing the ability to precisely manipulate small volumes of fluids and bioparticles, microfluidi...
In this work, using multiple co-flows we demonstrate in-situ encapsulation of nano-particles, liquid...
Cell cultivation devices that mimic the complex microenvironment of cells in the human body are of h...
A revolution in cell culturing has been seen in the last two decades in which 3D culturing became th...