Add to ORKGWe present the rapid fabrication of custom protein micro-arrays, in less than 35 minutes, on the surface of immobilized beads using microchannel-guided flows driven by a single syringe pump. The commercially available beads provide robust micro-array surfaces to graft capture antibodies. The different target antigens are subsequently specifically bound and analysed in parallel in different microfluidic channels on a single micro-array chip. The presence of target molecules is detected as a fluorescent signal by realizing a sandwich immunocomplex on the specific capture antibody spot of the micro-array. With this technique, multiple proteins can be easily detected in a single channel
There are only a few examples in which beads are employed for heterogeneous assays on microfluidic d...
The miniaturization of biological assays for basic science and clinical diagnostics is a strong focu...
There are only a few examples in which beads are employed for heterogeneous assays on microfluidic d...
The development of versatile biofunctional surfaces is a fundamental prerequisite in designing Lab o...
We propose an original concept for a sandwich immunoassay that is completely performed on-chip using...
Microfluidic-based micromosaic technology has allowed the pattering of recognition elements in restr...
We developed a process for enzyme-linked immunosorbent assay on a glass microchip via the use of a t...
Microfluidic-based micromosaic technology has allowed the pattering of recognition elements in restr...
Achieving efficient passivation of micro-channels against non-specific adsorption of biomolecules is...
The Enzyme-Linked Immuno-Sorbent Assay, or ELISA, is commonly utilized to quantify small concentrati...
We present a simple, inexpensive, and sensitive technique for producing multiple copies of a hydroge...
An array of four independent laser traps is combined with a polydimethylsiloxane microfluidic chip t...
The use of probe beads for lab-on-chip affinity assays is very interesting from a practical point of...
The simplicity of homogeneous immunoassays makes them suitable for diagnostics of acute conditions. ...
We present a simple, inexpensive, and sensitive technique for producing multiple copies of a hydroge...
There are only a few examples in which beads are employed for heterogeneous assays on microfluidic d...
The miniaturization of biological assays for basic science and clinical diagnostics is a strong focu...
There are only a few examples in which beads are employed for heterogeneous assays on microfluidic d...
The development of versatile biofunctional surfaces is a fundamental prerequisite in designing Lab o...
We propose an original concept for a sandwich immunoassay that is completely performed on-chip using...
Microfluidic-based micromosaic technology has allowed the pattering of recognition elements in restr...
We developed a process for enzyme-linked immunosorbent assay on a glass microchip via the use of a t...
Microfluidic-based micromosaic technology has allowed the pattering of recognition elements in restr...
Achieving efficient passivation of micro-channels against non-specific adsorption of biomolecules is...
The Enzyme-Linked Immuno-Sorbent Assay, or ELISA, is commonly utilized to quantify small concentrati...
We present a simple, inexpensive, and sensitive technique for producing multiple copies of a hydroge...
An array of four independent laser traps is combined with a polydimethylsiloxane microfluidic chip t...
The use of probe beads for lab-on-chip affinity assays is very interesting from a practical point of...
The simplicity of homogeneous immunoassays makes them suitable for diagnostics of acute conditions. ...
We present a simple, inexpensive, and sensitive technique for producing multiple copies of a hydroge...
There are only a few examples in which beads are employed for heterogeneous assays on microfluidic d...
The miniaturization of biological assays for basic science and clinical diagnostics is a strong focu...
There are only a few examples in which beads are employed for heterogeneous assays on microfluidic d...