Companies making climate friendly refrigerators and freezers for
biomedical applications include Mayekawa, which uses air as a refrigerant, and Vestfrost's «Green Line» biomedical freezers and refrigerators and Sure Chill vaccine refrigerators, both of which use propane, a climate friendly refrigerant.
Not exact matches
NB is already finding commercial
applications in
biomedical engineering (BME),
including the development of microfluidic chips, or «lab - on - a-chip» technology.
This superthin, 2 - D material — incredibly strong, flexible and light — could have diverse
applications in areas that
include biomedical devices and consumer tech.
Other
applications include the real - time point - of - care monitoring of physiological levels for the
biomedical industry and fast screening of drugs and toxins for law enforcement.
He and his collaborators have successfully demonstrated silk's ability to stabilize a variety of bioactive materials
including antibiotics, vaccines, enzymes and monoclonal antibiotics with numerous
biomedical and biomaterial
applications.
Interesting
applications for such a power detector
include wearable THz sensors for healthcare and flexible THz detector arrays for high resolution interferometric imaging to be used in
biomedical and security imaging, remote process control, material inspection and profiling and packaging inspection.
The nano - watt power
biomedical Integrated Circuit (IC)
includes power management, a flexible microprocessor interface and therapy monitoring, that supports pacemaker and neuro - stimulation therapy
applications.
The team of
biomedical engineers — Rao and Kannan — focus on assessing numerous
applications of these probes,
including standard biopsy analysis and pushing the technology into clinical practice through the development of a point - of - care cancer detection device.
Science Robotics will report on the development of the next generation of micro - and nanorobots as well as their potential
applications including in the
biomedical field.
The innovative nanotechnology uses non-biodegradable plastic grocery bags to make «carbon nanotube membranes» — highly sophisticated and expensive materials with a variety of potential advanced
applications including filtration, sensing, energy storage and a range of
biomedical innovations.
Such topics
include time - resolved, coherent and non-linear Raman spectroscopies, nanostructure - based surface - enhanced and tip - enhanced Raman spectroscopies of molecules, resonance Raman to investigate the structure - function relationships and dynamics of biological molecules, linear and nonlinear Raman imaging and microscopy,
biomedical applications of Raman, theoretical formalism and advances in quantum computational methodology of all forms of Raman scattering, Raman spectroscopy in archaeology and art, advances in remote Raman sensing and industrial
applications, and Raman optical activity of all classes of chiral molecules.
Drosophila research has a long history of important discoveries in the
biomedical field, leading to significant
applications in higher organisms,
including humans.
The Royal Society will still accept
applications in all fields of the natural sciences (
including other biological) as long as the project is not addressing a direct
biomedical question.
They will
include research and analysis on a wide range of policy issues impacting
biomedical research and its clinical
application, and summarizing those analyses for different audiences.
Prof. Su's current research fields
include the design, the synthesis, the property study and the molecular engineering of nanostructures and highly organized and hierarchically self - assembled porous materials, bio-integrated living and bio-inspired materials
including leaf - like materials by the immobilization of living organisms and biomaterials for catalysis, photocatalysis, CO2 reduction and water splitting, artificial photosynthesis, nanotechnology, biotechnology, information technology, energy storage and conversion, cell therapy and
biomedical applications.
POLYMER - METAL HYBRID LAMINATE COMPOSITES: UNDERSTANDING AND UTILIZING SURFACE CHEMISTRY AT THE INTERFACE: Reza Montazami Polymer - metal hybrid laminate composites have significantly lower densities than metal alloys and composites with potential for wide range of
applications including aerospace, automotive, and
biomedical prosthetics.
As a physician and
biomedical scientist, I consider the scientific method a specific
application of epistemology that involves observation, formation of hypotheses, and testing of the hypotheses, and that
includes ample helpings of deductive and inductive reasoning.
The combination of these two technologies opens up possibilities for a range of new
applications, based around digital image sensing,
including smart packaging and sensors for medical equipment and
biomedical diagnostics, security and mobile commerce (user identification by fingerprint scanning), environmental and other industrial uses.