Not exact matches
Much of the research on the
applications of silk come out of the Tufts School of
Engineering at Tufts University in Medford, Mass., in particular from the work of two
biomedical engineering researchers, Fiorenzo Omenetto and David Kaplan.
NB is already finding commercial
applications in
biomedical engineering (BME), including the development of microfluidic chips, or «lab - on - a-chip» technology.
This makes possible a wide range of
biomedical applications such as tissue
engineering as well as drug and gene delivery.
«For example, working with [Founding Core Faculty member and Molecular Robotics co-lead] William Shih, we built tensegrity - based DNA nanodevices that can be programmed to change shape on demand for
biomedical applications, and with [Core Faculty member and Bioinspired Robotics co-lead] Radhika Nagpal, we
engineered a self - deforming, modular robot that can perform a variety of maneuvers more quickly than traditional robots.
Chris Backhouse is one of many researchers working in a new field that's piquing interest all over the globe — the
application of microsystems and nanotechnologies in
biomedical engineering.
The new material, described online 25 April in Science by synthetic chemist Andreas Lendlein of mnemoScience GmbH in Aachen, Germany, and
biomedical engineer Robert Langer of the Massachusetts Institute of Technology, is composed of two polymers, each already used separately in clinical
applications such as drug delivery.
Such capabilities position the technique for potential use in tissue
engineering and industrial
applications, such as
biomedical devices, energy storage and microelectromechanical systems.
Engineers at Rutgers - New Brunswick and the New Jersey Institute of Technology worked with a hydrogel that has been used for decades in devices that generate motion and
biomedical applications such as scaffolds for cells to grow on.
«This characteristic makes gold nanorods attractive for use in catalysis, security materials and a range of
biomedical applications, such as diagnostics, imaging, and cancer therapy,» says Joe Tracy, a materials science and
engineering researcher at NC State who is senior author of a recent paper on the improved technique.
The clinical
application of this technology is clear, says lead author Emre Ozkumur, a
biomedical engineer also at Massachusetts General Hospital who developed the system with Toner.
By understanding how CNT arrays are created, designers and
engineers can better incorporate the highly adaptable material into devices and products such as baseball bats, aerospace wiring, combat body armor, computer logic components and micro sensors used in
biomedical 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.
«Many
applications, such as power plant reactors, require the management and control of the movement of water droplets at very high temperatures,» says Wang, an associate professor of mechanical and
biomedical engineering at City University.
She plans to do theoretical as well as applied research and steer her research toward energy, electronic, and
biomedical applications, combining materials science, applied physics, and
engineering with biomedicine.
INGESTEM, the national infrastructure in biology and health certified by the «Investissements d'Avenir» program and the Ile - de-France Region (DIM Biothérapies), is the first French network of therapeutic innovations based on pluripotent stem cells, human tissue
engineering and their
biomedical applications.
Our current research focuses on the discovery and functional characterization of novel proteins, the rational
engineering of proteins with improved functional properties, and de novo design of molecular scaffolds for a variety of biotechnological and
biomedical applications.
My work spans research in photonic devices, optical systems
engineering, optimization, computer vision, and
biomedical applications.
ASME Journal of
Engineering and Science in Medical Diagnostics and Therapy seeks to bridge the gap between
engineers and non-
engineers and translate
engineering knowledge into clinical
applications, to accelerate
biomedical innovation, trial and commercialization.
Check out the
biomedical and technology track, focusing on the implementation of various
engineering principles in the conception, design, development, analysis and operation of
biomedical and biotechnological systems and
applications.
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.
Gold nanostructures:
engineering their plasmonic properties for
biomedical applications.
With respect to the
applications of
biomedical engineering in various fields, the scope of
biomedical engineering is exceptionally unending.
The
application of
engineering principles that design instruments for healthcare diagnostics, medicine, and treatment come under
biomedical engineering.
Here's a list of
biomedical engineer skills for resumes, cover letters, job
applications and interviews.
Laser technology,
biomedical engineering, technical writing, photography, illustration, and medical - legal auditing are the areas in which their education has an available
application.
Seeking a position as an electronics / hardware for
applications in mathematical modeling, statistical signal processing,
biomedical engineering, and R&D projects