| Biocompatible (18) |  |
| Biofilm (7) | |
| Biofouling (1) | |
| Biogeochemistry (1) | |
| Biohazard (2) | |
| Bioinformatics (2) | |
| Biomarker (7) | |
| Biometrics (2) | |
| Computational biology (1) | |
| Pathobiology (1) | |
| Biocompatible (18) | |
| Biofilm (7) | |
| Biofouling (1) | |
| Biogeochemistry (1) | |
| Biohazard (2) | |
| Bioinformatics (2) | |
| Biomarker (7) | |
| Biometrics (2) | |
| Computational biology (1) | |
| Pathobiology (1) | |
The innovation is a flexible piezoelectric layer sandwiched between biocompatible plastic. Rogers says the whole system is about as stiff as the plastic used to make food wrappers.
In the new study biogeochemists at Rice conducted side-by-side tests of the water-holding ability of three soil types#sand clay and topsoil#both with and without added biochar.
Livestock biometrics: Collars with GPS, RFID and biometrics can automatically identify and relay vital information about the livestock in real time.
Scientifically viable in 2017; mainstream and financially viable in 2020. Crop sensors: Instead of prescribing field fertilization before application,
aims to be accessible to people with no expertise in bioinformatics, and provides access to free tools for designing custom-made analysis pipelines.
when bioinformaticians started up a flurry of companies, most of which were unsuccessful because the path from a genetic-disease marker to a profitable drug has not been straight#forward.
It almost like a natural sieve. arly identification of disease biomarkers and pathogenic microbes is possible with the swift and sensitive detection of nucleic acids.
Going forward, the team anticipates that their research will be useful in the progress of mini point-of-care diagnostic systems for clinical and agricultural applications. he applications of the sensor are quite broad ranging from detection of plant pathogens to disease biomarkers,
It almost like a natural sieve. arly identification of disease biomarkers and pathogenic microbes is possible with the swift and sensitive detection of nucleic acids.
Going forward, the team anticipates that their research will be useful in the progress of mini point-of-care diagnostic systems for clinical and agricultural applications. he applications of the sensor are quite broad ranging from detection of plant pathogens to disease biomarkers,
He worries more about gremlins that plague today's reverse osmosis membranes--growths on membrane surfaces that clog them (called"biofouling)
"By combining biocompatible light-capturing nanowire arrays with select bacterial populations, the new artificial photosynthesis system offers a win/win situation for the environment:
By combining biocompatible light-capturing nanowire arrays with select bacterial populations, the new artificial photosynthesis system offers a win/win situation for the environment:
present a biohazard and may damage cells. Now a team of researchers has developed a cell sorter based on acoustic waves that can compete with existing fluorescence-activated cell sorters
they have very low biocompatibility. The cell-sorting process can reduce cell viability and functions by 30 to 99 percent for many fragile or sensitive cells such as neurons, stem cells, liver cells and sperm cells.
and biohazard concerns remain factors that have prevented this technology from being even more widespread. Microfluidic cell sorting is revolutionary for the fields of cell biology and immunology,
and metal--and also suppressed biofilm formation in a study reported in Nature Biotechnology. But that's not All the team implanted medical-grade tubing
The work was done in collaboration with MIT's Laboratory for Computational biology and Biophysics led by Mark Bathe senior co-author of the paper.
You can think of it as being biocompatible with our planet. But if this material gets put in your garden or on the side of the road,
It s getting broken into biocompatible stuff. It ll help improve the soil in your area.
along with other researchers developed nanoscale particles that introduce silver antimicrobial potency to a biocompatible lignin core.
Upon disposal, the rest of the particles also degrade easily due to their biocompatible lignin core.
Staphylococcus epidermis, bacteria that form toxic biofilms on plastics such as catheters in the human body; and Ralstonia, a genus of bacteria that contains various soil-borne pathogens.
Bio-based materials are sustainable, biocompatible and biodegradable, "Gong says.""And, compared to other polymers,
The remaining particles degrade easily after disposal because of their biocompatible lignin core, limiting the risk to the environment."
and Staphylococcus epidermis, a bacterium that can cause harmful biofilms on plastics-like catheters-in the human body.
The remaining particles degrade easily after disposal because of their biocompatible lignin core, limiting the risk to the environment."
and Staphylococcus epidermis, a bacterium that can cause harmful biofilms on plastics-like catheters-in the human body.
The remaining particles degrade easily after disposal because of their biocompatible lignin core, limiting the risk to the environment."
and Staphylococcus epidermis, a bacterium that can cause harmful biofilms on plastics-like catheters-in the human body.
The remaining particles degrade easily after disposal because of their biocompatible lignin core, limiting the risk to the environment.
and Staphylococcus epidermis, a bacterium that can cause harmful biofilms on plastics like catheters in the human body.
In particular, biomedical applications, an area where the use of biocompatible polycarbonates is established well, have been left out.
and analyses of multiple biomarkers including inflammatory mediators indicated that the MP livers had been preserved better.
the wood nanomaterial is biocompatible and has relatively low thermal expansion coefficient, which means the material won't change shape as the temperature changes.
In addition, PLA is biocompatible and thus suitable for medical use, for instance in absorbable suture threads.
said Raymond obrowland, professor of diagnostic medicine and pathobiology at Kansas State College of Veterinary medicine. t really the future of diagnostics for both humans and animals.
The ability to accurately find mutations that are biomarkers for disease will help clinicians determine treatment paths for patients,
The ability to accurately find rare single-nucleotide mutations is becoming increasingly important as scientists drill down into genomes to find biomarkers for early cancer detection. ee trying to solve the needle-in-a-haystack problem,
biocompatible and biodegradable, Gong says. nd, compared to other polymers, CNF actually has a relatively low thermal expansion coefficient.
The remaining particles degrade easily after disposal because of their biocompatible lignin core, limiting the risk to the environment. eople have been interested in using silver nanoparticles for antimicrobial purposes,
and Staphylococcus epidermis, a bacterium that can cause harmful biofilms on plastics like catheters in the human body.
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