ScanDrop is an all - in - one
microfluidic system for detecting and reporting the presence of bacteria in drinking water (Golberg, et al., 2014).
Not exact matches
Said Tiffani Lash, Ph.D., director of the NIBIB program in
Microfluidic Bioanalytical Systems, «It is exciting to see the continued growth of microfluidic technologies being used as miniaturized diagnostic platforms, particularly in this case for reducing the incidence of preterm labor a
Microfluidic Bioanalytical
Systems, «It is exciting to see the continued growth of
microfluidic technologies being used as miniaturized diagnostic platforms, particularly in this case for reducing the incidence of preterm labor a
microfluidic technologies being used as miniaturized diagnostic platforms, particularly in this case
for reducing the incidence of preterm labor and delivery.
The Stanford team is currently developing new applications
for EPM actuation in ferro
microfluidic systems, as well as optimizing the EPM design.
The researchers are also working to develop nanoscale energy harvesting,
microfluidics - based portable kits
for rapid medical diagnostics, and
microfluidic tools to deepen our understanding of the physiological dynamics of living
systems.
«This means that the
system will open up new options
for biosensing particles within
microfluidic devices.»
An integrated
microfluidics tandem mass spectrometry
system for automated protein analysis.
Large - scale and effective studies of biological molecules with a different structural basis such as proteins, nucleic acids, carbohydrates, lipids and numerous metabolites (including e.g. fatty acids, amino acids, purines, pyrimidines or steroids) is currently highly attractive because of the availability of modern instruments and tools
for both separation and analysis (2 - D chromatographs, capillary electrophoresis
systems,
microfluidics, mass spectrometers, powerful NMR spectrometers, DNA / RNA arrays and others).
Previous work has given insights into the mechanistic pathways leading to small molecule sequestration in membrane - free coacervate protocells; successfully demonstrated the use of liquid - liquid phase separated micro compartments
for protein expression using cell free expression
systems; exploited
microfluidics for the high throughput formation of stable, monodisperse microdroplets; and integrated two contrasting modes of protocell construction to produce a novel hybrid model based on fatty acid membrane - bound coacervate micro-droplets.
The BioMark Dynamic Array
microfluidic qPCR
system (Fluidigm Corporation, San Francisco, CA) was used
for gene expressions analysis of oocytes and cumulus cells.
For studies at the molecular level, Ismagilov will develop
microfluidic systems capable of rapidly generating, manipulating and assaying protein aggregates of various sizes, shapes and compositions.
Comprised of a
microfluidic plate and controller, the
system delivers programmable, hands - free control and, importantly, is fully compatible with microscope stages
for dynamic live cell imaging.
Berkeley Lab researchers, working at the Joint Center
for Artificial Photosynthesis (JCAP), have developed the first fully integrated
microfluidic test - bed
for evaluating and optimizing solar - driven electrochemical energy conversion
systems.