Add to ORKGA microfluidic laminar flow cell (LFC) forms an indispensable component in single-molecule experiments, enabling different substances to be delivered directly to the point under observation and thereby tightly controlling the biochemical environment immediately surrounding single molecules. Despite substantial progress in the production of such components, the process remains relatively inefficient, inaccurate and time-consuming. Here we address challenges and limitations in the routines, materials and the designs that have been commonly employed in the field, and introduce a new generation of LFCs designed for single-molecule experiments and assembled using additive manufacturing. We present single- and multi-channel, as well as reservoir-...
Single-molecule experiments usually take place in flow cells. This experimental approach is essentia...
The creation of artificial cells is an immensely challenging task in science. Artificial cells contr...
<p>DNA assembly was tested in three fluidic device designs: (A) the Form 1+ Co-Laminar Mixer, (B) th...
Ahmadi A, Till K, Hafting Y, et al. Additive manufacturing of laminar flow cells for single-molecule...
Microfluidic flow cells are used in single-molecule experiments, enabling measurements to be made wi...
We have developed a micromachined flow cell consisting of a flow channel integrated with micropipett...
We have developed a micromachined flow cell consisting of a flow channel integrated with micropipett...
We have developed a micromachined flow cell consisting of a flow channel integrated with micropipett...
Abstract—We have developed a micromachined flow cell consisting of a flow channel integrated with mi...
3D printing of microfluidic lab-on-a-chip devices enables rapid prototyping of robust and complex st...
We have developed a method to fabricate microfluidic circuits that facilitate static and dynamic ass...
<div><p>The process of connecting genetic parts—DNA assembly—is a foundational technology for synthe...
Abstract Reconfigurable modular microfluidics presents an opportunity for flexibly constructing prot...
The uptake of microfluidics by the wider scientific community has been limited by the fabrication ba...
When people think of science labs, they picture those shown on television or in movies with mad scie...
Single-molecule experiments usually take place in flow cells. This experimental approach is essentia...
The creation of artificial cells is an immensely challenging task in science. Artificial cells contr...
<p>DNA assembly was tested in three fluidic device designs: (A) the Form 1+ Co-Laminar Mixer, (B) th...
Ahmadi A, Till K, Hafting Y, et al. Additive manufacturing of laminar flow cells for single-molecule...
Microfluidic flow cells are used in single-molecule experiments, enabling measurements to be made wi...
We have developed a micromachined flow cell consisting of a flow channel integrated with micropipett...
We have developed a micromachined flow cell consisting of a flow channel integrated with micropipett...
We have developed a micromachined flow cell consisting of a flow channel integrated with micropipett...
Abstract—We have developed a micromachined flow cell consisting of a flow channel integrated with mi...
3D printing of microfluidic lab-on-a-chip devices enables rapid prototyping of robust and complex st...
We have developed a method to fabricate microfluidic circuits that facilitate static and dynamic ass...
<div><p>The process of connecting genetic parts—DNA assembly—is a foundational technology for synthe...
Abstract Reconfigurable modular microfluidics presents an opportunity for flexibly constructing prot...
The uptake of microfluidics by the wider scientific community has been limited by the fabrication ba...
When people think of science labs, they picture those shown on television or in movies with mad scie...
Single-molecule experiments usually take place in flow cells. This experimental approach is essentia...
The creation of artificial cells is an immensely challenging task in science. Artificial cells contr...
<p>DNA assembly was tested in three fluidic device designs: (A) the Form 1+ Co-Laminar Mixer, (B) th...