Sentences with phrase «assembling nanostructures»
The NB activity in Alberta is far ranging, with such research as self - assembled nanostructures (M. J. Brett), single - cell cancer analysis (L. M. Pilarski), computational modeling (D. Wishart), micro-total analysis systems or lab on a chip (D. J. Harrison), cell identification and manipulation (K. Kaler), and microsystems and medical diagnostics (Backhouse).
http://www.sciencemag.org/
The study, published in the October 28 Early Online edition of Proceedings of the National Academy of Sciences (PNAS), is the first to demonstrate the application of this methodology to the design of self - assembled nanostructures, and shows the potential of machine learning and «big data» approaches embodied in the new Institute for Data Sciences and Engineering at Columbia.
Scientists have discovered a completely new type of opal formed by a common seaweed which harnesses natural technology by self - assembling a nanostructure of oil droplets to control how light reflects from its cells to display a shimmering array of colors...
Through this approach, we are able to generate a diverse array of well - organized and self - assembled nanostructures, while improving mechanical properties or reducing processing temperatures relative to traditional BCPs.
It is found that the self - assemble nanostructures depend on the confinement size, block copolymer properties, and oil / water interfacial properties.
Self - assembling Nanostructured Injectable Polymeric Gels for Drug Delivery, M. Determan and S. K. Mallapragada, USA
Not exact matches
The other is a benzoate molecule which self - assembles into sheet - like nanostructures.
Researchers at the Georgia Institute of Technology have now shown that they can assemble DNA nanostructures in a solvent containing no water.
«With this work, we have shown that DNA nanostructures can be assembled in a water - free solvent, and that we can mix water with the same solvent to speed up the assembly.
The article discusses how DNA molecules can be assembled into tailored and complex nanostructures, and further, how these structures can find uses in therapeutics and bionanotechnological applications.
Self - assembled DNA nanostructures can be used in molecular - scale diagnostics and as smart drug - delivery vehicles.
The researchers have also shown that they can get the nanospheres to self - assemble in a regularly - spaced array, which in turn can be used to create a uniform pattern of 3 - D nanostructures.
(B) It is also possible to use DNA molecules that self - assemble into larger nanostructures [2, 3].
«This work demonstrates the unique capability of micro-to-nanoscale topographies of the crumpled graphene - Au nanoparticles — higher density, three - dimensional optically active materials — that are further enhanced by the formation of hot spots, bringing the nanoparticles closer,» explained Juyoung Leem, a graduate student and first author of the study, «Mechanically Self - Assembled, Three - Dimensional Graphene?Gold Hybrid Nanostructures for Advanced Nanoplasmonic Sensors,» published in Nano Letters.
Recently highlighted in a C&EN article titled Simple Process Creates Near - Perfect Mirrors Out of a Metamaterial, researchers out of Vanderbilt University developed a method to self - assemble silicon nanostructures -LSB-...]
Resume: Block copolymers (BCPs) which are able to spontaneously self - assemble into discrete nanostructures have been proposed as a promising candidate for next generation nanopatterning technologies, namely directed self - assembly (DSA), enabling high - resolution patterning in thin films over large areas at low cost.
Block copolymers (BCPs) which are able to spontaneously self - assemble into discrete nanostructures have been proposed as a promising candidate for next generation nanopatterning technologies, namely directed self - assembly (DSA), enabling high - resolution patterning in thin films over large areas at low cost.
It has been reported that the block copolymer can spontaneously self - assemble into various well - defined nanostructures under certain conditions.
The five - year, $ 750,000 grant will support Collins and his team of graduate and undergraduate students in their research developing and testing new resonant X-ray scattering techniques that reveal how organic, carbon - based molecules assemble, orient and conform into nanostructures.
«DNA is easy to program, synthesize and replicate, so it can be used as a special material to quickly self - assemble into nanostructures and to guide the operation of molecular - scale devices,» he said.
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.