«
Nanoscience makes your wine better.»
Nanoscience makes your wine better One sip of a perfectly poured glass of wine leads to an explosion of flavours in your mouth.
Not exact matches
Kaloyeros: When Governor Cuomo announced the Buffalo Billion, part of it is the concept of taking a hybrid of the Albany innovation and education model of the College of
Nanoscience and Engineering and adapting it to whatever
makes sense for Buffalo.
«It
made a huge difference, as by working with surgeons we were able to ensure that the
nanoscience was clinically relevant,» he said.
«We've used enzymatic production methods to create a system that not only improves the quality of the manufactured oligonucleotides but that also
makes it possible to scale up production using bacteria in order to produce large amounts of DNA copies cheaply,» says co-developer Björn Högberg at the Swedish Medical
Nanoscience Center, part of the Department of Neuroscience at Karolinska Institutet in Sweden.
Scientists from the Cees Dekker group at the Kavli Institute of
Nanoscience at Delft University, together with the Christian Haering group from EMBL Heidelberg who established the purification and fluorescence labeling of the protein, managed to
make actual movies that caught the action of the condensin complex in the act — that is, while it was extruding a loop of DNA.
«Park Systems has invested significant resources into the new Park
Nanoscience Lab in Europe to offer the vast European scientific community a better opportunity to use our AFM product and
make side - by - side comparisons to the well - known European AFM.
«Revolutionary new microscopy technology provided thru Park Systems AFM (Atomic Force Microscopy) and new innovations in chemical and material research indicates that there is a defined opportunity to use the advances in chemistry, materials, and
nanoscience to
make valuable industry process updates.»
Professor Arne Skjeltorp, of the University of Oslo, and chairman of the Kavli
Nanoscience Prize Committee, said that, while an award could have been
made for Professor Dresselhaus» work in the field as a whole, members of the committee wanted to honor her for her specific advances in the study of phonons, electron - phonon interactions, and thermal transport in nanostructures.
«This work
makes significant advances in characterization capabilities and expands our fundamental understanding of structure - property relationships, which is expected to find broad applications in physics, chemistry, materials science,
nanoscience and nanotechnology,» Miao said.
In
making their award, the Kavli
Nanoscience Prize committee has selected a scientist whose work, over more than five decades, has improved understanding of how and why the thermal, electrical, and other characteristics of materials structured at the nanoscale can be dramatically different from those of the same materials at larger dimensions.
Professor Arne Skjeltorp, of the University of Oslo, and chairman of the Kavli
Nanoscience Prize Committee, said that, while an award could have been
made for Professor Dresselhaus» work in the field as a whole, members of the committee wanted to honour her for her specific advances in the study of phonons, electron - phonon interactions and thermal transport in nanostructures.
Making a giant leap in the «tiny» field of
nanoscience, a multi-institutional team of researchers is the first to create nanoscale particles composed of up to eight distinct elem... Read more
The 32 T superconducting system is
made from two primary sections, an outsert section delivering 15 Tesla in a 250 mm wide bore magnet developed by Oxford Instruments
Nanoscience (OINS) using advanced Low Temperature Superconductor (LTS) materials operating at 4.2 Kelvin and an insert section delivering 17 Tesla in 34 mm cold bore developed by our colleagues at NHMFL using advanced High Temperature Superconductor (HTS) materials manufactured by Superpower Inc..