Professor Sylvain Martel from the Department of Computer Engineering at Polytechnique Montréal talks to AZoNano about Magnetic Resonance Navigation for Nanorobotic Cancer Therapies.
Georgia has a growing technology sector, driven by excellence in nanotechnology research institutions like the Georgia Institute of Technology.
Graphene is the thinnest material in the world. The two-dimensional nature of graphene leads to a number of unique electrical and optical properties, which have produced enormous interest in the academic and industrial communities.
By Will Soutter
5 Feb 2013
Nanomaterials have begun to be widely used in environmental remediation, which is based on using highly reactive or absorbent nanomaterials to remove pollutants. The characteristics of these nanomaterials enable efficient chemical transformation or degradation of the contaminants.
By Will Soutter
31 Jan 2013
Dr. Martin Maldovan, a researcher at the Department of Materials Science and Engineering at the Massachusetts Institute of Technology, talks to AZoNano about his work on heat manipulation with semiconductor alloy crystals.
By Kalwinder Kaur
31 Jan 2013
In this Thought Leader interview, Dr. Gupreet Singh from Kansas State University talks to AZoNano about his work on using 2D nanomaterials such as graphene and tungsten disulfide for electrodes in rechargeable lithium ion batteries.
By Will Soutter
29 Jan 2013
Dye-sensitized solar cells (DSSC) are an efficient type of thin-film photovoltaic cell. They are based on printable semiconductor materials, including an electrolyte and a photo-sensitized anode.
By Will Soutter
28 Jan 2013
Theranostics is a combination of diagnostics and therapeutics. To advance theranostics, validating the attributes of nanomaterials utilized in the delivery of diagnostic and therapeutic agents is important.
RJ Lee Group is involved in the commercialization of an innovative passive particulate sampler developed at the University of North Carolina (UNC).
Magnetic nanoparticles are a group of nanoparticles that can be manipulated with a magnetic field. These particles commonly comprise magnetic particles like nickel, cobalt, iron and their chemical compounds.
By Will Soutter
25 Jan 2013