Add to ORKGWe describe the fabrication and application of a bioanalytical chip, made of SU-8 photoresist, comprising integrated, high aspect-ratio microfluidic channels, suitable to manipulate and investigate vesicles, cell fragments and biological cells. A central micrometer-sized aperture allows electrical particle counting and planar membrane experiments, microfluids allow (sub)micrometer-sized objects to be transported and addressed with different chemicals. Here we show how lipid vesicles are positioned with micrometer precision within the micro-channels by means of pressure and electrophoretic movement. Our approach is suited for controlling and investigating (bio)chemical synthesis and cellular signalling processes in ultrasmall individual vesi...
dissertationLiposomes are small vesicles filled with an aqueous solvent, bounded by a fluid shell th...
A central focus of this research is the development of microfluidic devices for manipulating single ...
We present a nanofluidic device for fluorescence-based detection and characterization of small lipid...
Cell membrane receptors and ion channels are essential in many different cellular processes. To anal...
International audienceBeing the base element of cell membranes, lipid bilayers are an essential ingr...
We present a new way to transport and handle picoliter volumes of analytes in a microfluidic context...
A single lipid vesicle can be regarded as an autonomous ultra-miniaturised 3D biomimetic “scaffold” ...
International audienceExtracellular vesicles (EVs) are vesicles shed by almost all cells with nanome...
A microfluidic device was designed allowing the formation of a planar lipid bilayer across a micron-...
A microfabricated silicon device for studying artificial lipid bilayer systems is described. The exp...
"Laboratory-on-a-chip" devices that enable the simultaneous culturing and interrogation of many indi...
An array of four independent laser traps is combined with a polydimethylsiloxane microfluidic chip t...
Autonomous chemical sensing platforms capable of operating independently for long periods of time (m...
We reveal a physical mechanism that enables the preconcentration, sorting, and characterization of c...
Lipid membrane nanotubes (NTs) are a widespread template forin vitrostudies of cellular processes ha...
dissertationLiposomes are small vesicles filled with an aqueous solvent, bounded by a fluid shell th...
A central focus of this research is the development of microfluidic devices for manipulating single ...
We present a nanofluidic device for fluorescence-based detection and characterization of small lipid...
Cell membrane receptors and ion channels are essential in many different cellular processes. To anal...
International audienceBeing the base element of cell membranes, lipid bilayers are an essential ingr...
We present a new way to transport and handle picoliter volumes of analytes in a microfluidic context...
A single lipid vesicle can be regarded as an autonomous ultra-miniaturised 3D biomimetic “scaffold” ...
International audienceExtracellular vesicles (EVs) are vesicles shed by almost all cells with nanome...
A microfluidic device was designed allowing the formation of a planar lipid bilayer across a micron-...
A microfabricated silicon device for studying artificial lipid bilayer systems is described. The exp...
"Laboratory-on-a-chip" devices that enable the simultaneous culturing and interrogation of many indi...
An array of four independent laser traps is combined with a polydimethylsiloxane microfluidic chip t...
Autonomous chemical sensing platforms capable of operating independently for long periods of time (m...
We reveal a physical mechanism that enables the preconcentration, sorting, and characterization of c...
Lipid membrane nanotubes (NTs) are a widespread template forin vitrostudies of cellular processes ha...
dissertationLiposomes are small vesicles filled with an aqueous solvent, bounded by a fluid shell th...
A central focus of this research is the development of microfluidic devices for manipulating single ...
We present a nanofluidic device for fluorescence-based detection and characterization of small lipid...