Biophysical phenotyping of cells via impedance spectroscopy in parallel cyclic deformability channels
This paper describes a new microfluidic biosensor with capabilities of studying single cell
biophysical properties. The chip contains four parallel sensing channels, where each …
biophysical properties. The chip contains four parallel sensing channels, where each …
[HTML][HTML] Biophysical phenotyping of cells via impedance spectroscopy in parallel cyclic deformability channels
X Ren, P Ghassemi, JS Strobl, M Agah - Biomicrofluidics, 2019 - ncbi.nlm.nih.gov
This paper describes a new microfluidic biosensor with capabilities of studying single cell
biophysical properties. The chip contains four parallel sensing channels, where each …
biophysical properties. The chip contains four parallel sensing channels, where each …
Biophysical phenotyping of cells via impedance spectroscopy in parallel cyclic deformability channels
X Ren, P Ghassemi, JS Strobl, M Agah - Biomicrofluidics, 2019 - pubmed.ncbi.nlm.nih.gov
This paper describes a new microfluidic biosensor with capabilities of studying single cell
biophysical properties. The chip contains four parallel sensing channels, where each …
biophysical properties. The chip contains four parallel sensing channels, where each …
Biophysical phenotyping of cells via impedance spectroscopy in parallel cyclic deformability channels
X Ren, P Ghassemi, JS Strobl, M Agah - Biomicrofluidics, 2019 - pubs.aip.org
This paper describes a new microfluidic biosensor with capabilities of studying single cell
biophysical properties. The chip contains four parallel sensing channels, where each …
biophysical properties. The chip contains four parallel sensing channels, where each …
Biophysical phenotyping of cells via impedance spectroscopy in parallel cyclic deformability channels.
X Ren, P Ghassemi, JS Strobl, M Agah - Biomicrofluidics, 2019 - europepmc.org
This paper describes a new microfluidic biosensor with capabilities of studying single cell
biophysical properties. The chip contains four parallel sensing channels, where each …
biophysical properties. The chip contains four parallel sensing channels, where each …
Biophysical phenotyping of cells via impedance spectroscopy in parallel cyclic deformability channels.
X Ren, P Ghassemi, JS Strobl, M Agah - Biomicrofluidics, 2019 - europepmc.org
This paper describes a new microfluidic biosensor with capabilities of studying single cell
biophysical properties. The chip contains four parallel sensing channels, where each …
biophysical properties. The chip contains four parallel sensing channels, where each …