The combination of printed circuit boards (PCB) and microfluidics has many advantages. The combination of electrodes, sensors and electronics is needed for almost all microfluidic systems. Using PCBs as a substrate, this integration is intrinsic. Additive manufacturing has become a widely used technique in industry, research and by hobbyists. One very promising rapid prototype technique is vat polymerization with an LCD as mask, also known as masked stereolithography (mSLA). These printers are available with resolutions down to 35 µm, and they are affordable. In this paper, a technology is described which creates microfluidics on a PCB substrate using an mSLA printer. All steps of the production process can be carried out with commercially ...
In laboratory environments, 3D printing is used for fast prototyping of assays and devices. Stereoli...
In the last few years, 3D printing has emerged as a promising alternative for the fabrication of mic...
Organ-on-chip and Lab-on-chip are microfluidic devices widely applied in the biomedical field. They ...
The combination of microfluidics and photo-polymerization techniques such as stereolithography (SLA)...
Additive manufacturing techniques using three dimensional (3D) printing have been shown to be suitab...
Additive manufacturing techniques using three dimensional (3D) printing have been shown to be suitab...
For the past decade, the concept of ‘Lab-on-a-chip’ has been getting increasingly popular with biome...
Additive manufacturing (AM), also known broadly as 3D printing, has enticed the research community a...
3D printing has revolutionized the field of microfluidics manufacturing by simplifying the typical p...
This paper describes a simple method to apply 3D printing to fabricate microfluidic devices integrat...
This work describes a preliminary investigation of commercially available 3D printing technologies f...
During the last decade, an innovative lab on a chip technology known as microfluidics became popular...
The rapid expansion of microfluidic applications in the last decade has been curtailed by slow, labo...
The purpose of this project is to produce a microfluidic device for mechanical cell lysis. Microflu...
The goal of this work was to design and implement a microfluidic mixer-based chemical reactor using ...
In laboratory environments, 3D printing is used for fast prototyping of assays and devices. Stereoli...
In the last few years, 3D printing has emerged as a promising alternative for the fabrication of mic...
Organ-on-chip and Lab-on-chip are microfluidic devices widely applied in the biomedical field. They ...
The combination of microfluidics and photo-polymerization techniques such as stereolithography (SLA)...
Additive manufacturing techniques using three dimensional (3D) printing have been shown to be suitab...
Additive manufacturing techniques using three dimensional (3D) printing have been shown to be suitab...
For the past decade, the concept of ‘Lab-on-a-chip’ has been getting increasingly popular with biome...
Additive manufacturing (AM), also known broadly as 3D printing, has enticed the research community a...
3D printing has revolutionized the field of microfluidics manufacturing by simplifying the typical p...
This paper describes a simple method to apply 3D printing to fabricate microfluidic devices integrat...
This work describes a preliminary investigation of commercially available 3D printing technologies f...
During the last decade, an innovative lab on a chip technology known as microfluidics became popular...
The rapid expansion of microfluidic applications in the last decade has been curtailed by slow, labo...
The purpose of this project is to produce a microfluidic device for mechanical cell lysis. Microflu...
The goal of this work was to design and implement a microfluidic mixer-based chemical reactor using ...
In laboratory environments, 3D printing is used for fast prototyping of assays and devices. Stereoli...
In the last few years, 3D printing has emerged as a promising alternative for the fabrication of mic...
Organ-on-chip and Lab-on-chip are microfluidic devices widely applied in the biomedical field. They ...