New research by the Nanoparticles By design Unit at the Okinawa Institute of Science and Technology Graduate University (OIST), in collaboration with the Materials Center Leoben Austria and the Austrian Centre for Electron microscopy and Nanoanalysis has developed an efficient
New research by the Nanoparticles By design Unit at the Okinawa Institute of Science and Technology Graduate University (OIST), in collaboration with the Materials Center Leoben Austria and the Austrian Centre for Electron microscopy and Nanoanalysis has developed an efficient
The research jointly lead by Professor Christoph Hagemeyer, Head of the Vascular Biotechnology Laboratory at Baker IDI Heart and Diabetes Institute and Professor Frank Caruso,
Professor Hagemeyer said this latest step offers a revolutionary difference between the current treatments for blood clots and
Professor Hagemeyer said. nce located at the site of the blood clot, thrombin (a molecule at the centre of the clotting process) breaks open the outer layer of the nanocapsule,
Professor Frank Caruso from the Melbourne School of engineering said the targeted drug with its novel delivery method can potentially offer a safer alternative with fewer side effects for people suffering a heart attack
or anode, are reported in the journal Nature Communications, in a paper by MIT professor Ju Li and six others.
says Li, the Battelle Energy Alliance Professor in Nuclear Science and Engineering, who has a joint appointment in MIT Department of Materials science and engineering. e came up with the method serendipitously,
the first author of which is research student Luca Banszerus. Key to the process is the strong Van der waals interaction that exists between graphene and hexagonal boron nitride, another 2d material within
In a paper published August 10, 2015 in the journal Nature Communications, Michael Arnold, an associate professor of materials science and engineering at UW-Madison, Phd student Robert Jacobberger,
an amiable professor stationed at POSTECH speaks in rapid bursts when detailing the experiment, e transferred electrons from the dopant-potassium-to the surface of the black phosphorus,
Professor Kim explained, raphene is a Dirac semimetal. It more efficient in its natural state than black phosphorus but it difficult to open its band gap;
Professor Yuanzheng Yue from Aalborg University adds: second facet to the work is in the glasses themselves,
Professor Trevor Rayment Physical science Director at Diamond, comments:""This work is an exciting example of how work with synchrotron radiation
Professor Pete Vukusic, one of the authors of the research and part of the Physics department at the University of Exeter said:
ur research into these bio-inspired sensors demonstrates the huge value in applying the scientific learnings from the biological world to develop technologies for real world applications. d
Scientia Professor and Director of the Australian National Fabrication Facility at UNSW. ee demonstrated a two-qubit logic gate the central building block of a quantum computer and,
But the UNSW team working with Professor Kohei M. Itoh of Japan Keio University has done just that for the first time.
but seemingly impossible (in physical reality), said Professor Mark Hoffman, UNSW's Dean of Engineering. he advance our UNSW team has made could,
we believe, be the inflection point that changes that Schrödinger paradigm, "he added.""The technology devised,
but we are looking forward to improve our sensing platform even more"said Simona Ranallo, a Phd student in the group of Prof.
Back in 2013 Martin Mittendorff, who was a Phd student at the HZDR at that time, had developed the precursor to the graphene detector.
Back in 2013 Martin Mittendorff, who was a Phd student at the HZDR at that time, had developed the precursor to the graphene detector.
Developed by UW-Madison collaborators Zhenqiang"Jack"Ma, professor of electrical and computer engineering and research scientist Jung-Hun Seo, the high-performance phototransistor far and away exceeds all previous flexible phototransistor parameters,
professor of electrical and computer engineering, and research scientist Jung-Hun Seo, the high-performance phototransistor far and away exceeds all previous flexible phototransistor parameters,
an MIT professor of biological engineering and the paper senior author. e used the tools of protein engineering to try to boost the magnetic characteristics of this protein.
The paper lead author is former MIT graduate student Yuri Matsumoto. Other authors are graduate student Ritchie Chen and Polina Anikeeva, an assistant professor of materials science and engineering.
Magnetic pull Previous research has yielded synthetic magnetic particles for imaging or tracking cells, but it can be difficult to deliver these particles into the target cells.
and photons, said Vladimir M. Shalaev, co-director of a new Purdue Quantum Center, scientific director of nanophotonics at the Birck Nanotechnology Center and a distinguished professor of electrical and computer engineering."
doctoral student Justus C. Ndukaife. Previous research had shown that convection using a single plasmonic nanoantenna was too weak to induce such a strong convection, below 10 nanometers per second,
said Steve Wereley, a professor of mechanical engineering. Ndukaife said, "The local electromagnetic field intensity is enhanced highly, over 200 times, at the plasmonic hotspot.
but important step,"said Dmitri Strukov, a professor of electrical and computer engineering. With time and further progress, the circuitry may eventually be expanded
Yoke Khin Yap, a professor of physics at Michigan Technological University, has worked with a research team that created these digital switches by combining graphene and boron nitride nanotubes.
"said Orlin Velev, INVISTA Professor of Chemical and Biomolecular engineering at NC State and the corresponding author of the paper."
John P. Barker Distinguished Professor of Chemistry at UNC and one of the co-authors of the paper r
Wang is an assistant professor at the Korea University-Korea Institute of Science and Technology's Graduate school of Converging Science and Technology.
Tour is the T. T. and W. F. Chao Chair in Chemistry as well as a professor of materials science and nanoengineering and of computer science and a member of Rice's Richard E. Smalley Institute for Nanoscale Science and Technology y
In a paper published Aug 10 in the journal Nature Communications, Michael Arnold, an associate professor of materials science and engineering at UW-Madison, Ph d. student Robert Jacobberger,
Bristol Phd student Jacques Carolan, one of the researchers, added:""Once we wrote the code for each circuit,
Professor Jeremy O'brien, Director of the Centre for Quantum Photonics at Bristol University, explained:""Over the last decade, we have established an ecosystem for photonic quantum technologies,
and on budget,"says Caltech's Nate Lewis, George L. Argyros Professor and professor of chemistry,
The work was done by researchers in the laboratories of Lewis and Harry Atwater, director of JCAP and Howard Hughes Professor of Applied Physics and Materials science."
Nobody had seen ever this before,"said LSU Physics Professor Ward Plummer, a co-author on the study.
UVM graduate students (from left) Naveen Rawat and Lane Manning, and professors Randy Headrick and Madalina Furis, deployed this table-top scanning laser microscope.
Their latest finding is reported in the journal Nature Communications--and may someday not too far off, let you roll up your computer like a piece of paper.
"says Lane Manning'08 a doctoral student in Furis'lab and co-author on the new study.
the team worked in the lab of UVM physics and materials science professor Randy Headrick to successfully form films with jumbo-sized crystal grains and"small angle boundaries."
"The new UVM study--led by two of Furis'students, Zhenwen Pan G'12, and Naveen Rawat G'15--opens a window to view how increasing"long-range order"in the organic semiconductor films is a key mechanism that allows excitons to migrate farther."
FOM workgroup leader prof. dr. Bart van Wees and his Phd student Ludo Cornelissen, both from the University of Groningen and FOM workgroup leader dr. Rembert
"said Liangfang Zhang, a nanoengineering professor at UC San diego and the senior author of the study."
"said Shu Chien, a professor of bioengineering and medicine, director of the Institute of Engineering in Medicine at UC San diego,
The collaborative effort also includes Kang Zhang, a professor of ophthalmology and chief of Ophthalmic Genetics at UC San diego and a corresponding author on this study y
The work by Shanhui Fan, a professor of electrical engineering at Stanford, research associate Aaswath P. Raman and doctoral candidate Linxiao Zhu is described in the current issue of Proceedings of the National Academy
Professor David Wright from the University of Exeter's Engineering department said:""With our prototype we have, for the first time,
"Professor Wolfram Pernice, from the Institute of Physics at Mnster University and who led the work said:"
or more,"adds Professor Harish Bhaskaran from Oxford university in England, one of the lead co-authors,
The design was created by the research group of Alexis Vallée-Bélisle, a professor in the Department of chemistry at University of Montreal."
Francesco Ricci, a professor at University of Rome Tor Vergata who also participated in this study,
senior author and UW physics professor Jens Gundlach.""We can really pick up atomic-scale movements that a protein imparts onto DNA."
according to co-author and UW physics doctoral student Jonathan Craig. They even discovered that these two steps involve sequential chemical processes that the protein uses to walk along DNA."
whose theory group headed by Professor Matthias Eschrig. They suggest that techniques based on this effect are able to move us closer to future supercomputers:
The work by Cranston, an assistant chemical engineering professor, and Zhitomirsky, a materials science and engineering professor, demonstrates an improved three-dimensional energy storage device constructed by trapping functional nanoparticles within the walls of a nanocellulose foam.
The foam is made in a simplified and fast one-step process. The type of nanocellulose used is called cellulose nanocrystals
Kai Liu, professor of physics at UC Davis and corresponding author of a paper on the work, published in the journal Nature Communications Oct 8.
Together with graduate student Dustin Gilbert, now a postdoctoral fellow at NIST, Liu and colleagues designed a nanosynthesis approach to achieve artificial"Bloch"magnetic skyrmions at room temperature.
Led by Professor David Reilly from the School of Physics researchers from the University investigated how nanoscale diamonds could help identify cancers in their earliest stages."
"says Professor Reilly.""We thought we could build on these nontoxic properties realising that diamonds have magnetic characteristics enabling them to act as beacons in MRIS.
"Professor Reilly's team turned its attention to hyperpolarising nanodiamonds, a process of aligning atoms inside a diamond so they create a signal detectable by an MRI SCANNER."
"says Professor Reilly. The next stage of the team's work involves working with medical researchers to test the new technology on animals.
"said David D. Awschalom, Liew Family Professor and deputy director in the Institute of Molecular Engineering at UCHICAGO,
"said Andrew Yeats, a graduate student in Awschalom's laboratory and the paper's lead author."
"One exciting aspect of this work is that it's noninvasive"said Nitin Samarth, Professor and Downsbrough Head of Physics at Penn State,
while a relatively cheap metal, is not nearly as catalytically powerful as platinum, noted Professor of Chemistry Charles Sykes, Ph d.,one of the senior authors on the paper."
With that knowledge, Sykes and his fellow chemists turned to long-time Tufts collaborator Maria Flytzani-Stephanopoulos, Ph d.,the Robert and Marcy Haber Endowed Professor in Energy Sustainability at the School of engineering,
lead author of the paper and a Ph d. student at NC State. The researchers make the film by first using a nanolithography developed in Chang's lab to create highly-ordered pores in a polymer substrate.
"Six plus seven makes three-plus one carried over",calculated Professor Hermann Kohlstedt, Head of the Nanoelectronic group at Kiel University.
"said Professor Hermann Kohlstedt and his colleague from Bochum, Dr Thomas Mussenbrock to describe the research results.
"says Per Delsing, Professor of Physics and leader of the research team.""We can vary the lifetime of the atom by changing the distance between the atom and the mirror.
known as vacuum fluctuations,"says Göran Johansson, Professor of Theoretical and Applied Quantum physics and leader of the theory group.
The Laboratory was set up in 2014 using funds from a mega grant awarded to Alexander Golubov, a professor at the University of Twente (Netherlands.
which provide the playgrounds in which to search for new macroscopic physical properties.""Hsieh and his colleagues describe their findings in the November issue of Nature Physics,
who served an internship in the University as a part of Presidential scholarship for studying abroad.
senior author Jeffrey Long, a UC Berkeley professor of chemistry and faculty senior scientist at Lawrence Berkeley National Laboratory."
UC Berkeley graduate students Thomas Mcdonald and Jarad Mason, together with other co-workers, describe how this works."
Since morphology changes of synapses underlie synaptic plasticity and our learning and memory, this will provide us with many new insights into mechanisms of how neurons store information in their morphology,
"explains Jin Zhou, Krishnaswamy's Phd student and the paper's lead author.""Transmitter echo or'self-interference'cancellation has been a fundamental challenge,
"Mirkin is the George B. Rathmann Professor of Chemistry in the Weinberg College of Arts and Sciences and professor of medicine, chemical and biological engineering, biomedical engineering and materials science and engineering.
Joseph M. Desimone, professor of chemistry at UNC-Chapel hill and of chemical engineering at N c. State, is currently CEO of Carbon3d where he co-invented the method with colleagues Alex Ermoshkin, chief technology officer
at Carbon 3d and Edward T. Samulski, also professor of chemistry at UNC. Currently on sabbatical from the University, Desimone has focused on bringing the technology to market,
while also creating new opportunities for graduate students to use the technique for research in materials science and drug delivery at UNC and NCSU.
Rima Janusziewicz and Ashley R. Johnson, graduate students in Desimone's academic lab, are co-authors on the paper
Professor Benjamin Eggleton, Thomas Bttner and Moritz Merklein, researchers from CUDOS at the University of Sydney with the chalcogenide photonic chip.
Doctoral student Seyed Sadreddin Mirshafieyan and Dr. Junpeng Guo in Dr. Guos lab with a disc showing a rainbow of optical colors created with ultra-thin layers of silicon.
a physical process that results in colors, says Dr. Junpeng Guo, professor of electrical engineering and optics,
who has published the result with his graduate student, Seyed Sadreddin Mirshafieyan, in a recent issue of Optics Express("Silicon colors:
while his student holds a collection of color samples. And the colors are very durable.
The research group led by Professor Stefan Seelecke will be showcasing their prototype artificial hand and how it makes use of shape-memory metal muscles at HANNOVER MESSE the worlds largest industrial fair from April 13th to April 17th.
Filomena Simone, an engineer in the research team led by Professor Stefan Seelecke, is working on the prototype of the artificial hand.
The research team led by Professor Stefan Seelecke from Saarland University and the Center for Mechatronics and Automation Technology (Zema) is using a new technology based on the shape memory properties of nickel-titanium alloy.
and people with diabetes, said study co-leader David J. Sharp, Ph d.,professor of physiology & biophysics at Einstein.
Dr. Sharp and project co-leader Joshua Nosanchuk, M d.,professor of medicine at Einstein and attending physician, infectious diseases at Montefiore Medical center, developed a wound-healing therapy that uses
Dr. Sharp collaborated with Joel Friedman, M d.,Ph d.,professor of physiology & biophysics and of medicine at Einstein,
the Gene K. Beare Professor of Biomedical engineering in the School of engineering & Applied science, was able to take images of blood oxygenation 50 times faster than their previous results using fast-scanning PAM;
"explains Chiara Daraio, Professor of Mechanics and Materials. The scientists were able to develop by far the most sensitive temperature sensor:
"says Tyler F. W. Sloan, Phd student in Dr. Charron's laboratory and first author of the study."
said Hyun Koo, a professor in the Department of Orthodontics and co-senior author of the work.
Professor Michael Triantafyllou who is also the William I. Koch Professor of Marine Technology Professor of Mechanical and Ocean Engineering and Director of the Center for Ocean Engineering at MIT, explained:
With this fundamental understanding in fluid mechanics, our research will pave the way for future robots that require fast maneuvers to help us get close to something that moves fast
The team, consisting of postdoctoral researcher Valeria Garbin, graduate student Ian Jenkins and professors Talid Sinno, John Crocker,
and Kathleen Stebe, also devised clever ways of measuring the properties of this unique system.
a graduate student in electrical engineering who is advised by senior authors Englund and Danielle Braje, a physicist at MIT Lincoln Laboratory.
Theye joined by Englund students Matthew Trusheim and Carson Teale (who also at Lincoln Lab) and by Tim Schröder, a postdoc in MIT Research Laboratory of Electronics y
and boron nitride (Nanowerk News) The research group led by Professor Yuichi Ikuhara (also appointed as a professor at Tokyo University), Associate professor Zhongchang Wang and Assistant professor Chunlin Chen at the Advanced Institute for Materials Research
said study lead author Ashwin Atre, a graduate student in the lab group of Jennifer Dionne, an assistant professor of materials science and engineering.
and he is the first graduate from Dionne's lab b
#Novel photolithographic technology that enables control over functional shapes of microstructures Professor Shin-Hyun Kim
and his research team in the Department of Chemical and Biomolecular engineering at Korea Advanced Institute of Science and Technology (KAIST) have developed a novel photolithographic technology enabling control over the functional shapes of micropatterns using oxygen diffusion.
Professor Kim research team discovered that: 1) the areas exposed to UV LIGHT lowered the concentration of oxygen
Professor Kim and his team proved this phenomenon both empirically and theoretically. Furthermore, by injecting an external oxygen source
Professor Kim said, hile 3d printing is considered an innovative manufacturing technology, it cannot be used for mass-production of microscopic products.
The research was dedicated also to the late Professor Seung-Man Yang of the Department of Chemical and Biomolecular engineering at KAIST.
Professor Ray Dupree from the University of Warwick, one of the researchs authors, says:""Using advanced NMR techniques we found that the xylan polymer,
Professor Paul Dupree of the University of Cambridge (son of Professor Ray Dupree) says"For the first time we have been able to study the arrangement of molecules in woody plant materials.
"Professors Ray and Paul Dupree have discussed the possibility of working together to solve outstanding questions in plant biochemistry for twenty years.
co-researcher Professor Steven Brown of the University of Warwick says: The NMR Facility is a flagship national success for shared equipment and multi-disciplinary research.
Professor Nigel Scrutton, Director of the MIB, explains the significance of their work: The chemical industry is undergoing a major transformation as a consequence of unstable energy costs, limited natural resources and climate change.
Professor Scrutton comments: This study focused on the construction and evaluation of alternative microbial biosynthetic pathways for the production of renewable propane.
Both Sheng and Kelly credit Elliot Pohlmann, a fourth-year Virginia Tech School of medicine student and the paper first author, for sparking the collaboration between their laboratories on this particular project. e realized that glioblastoma
in collaboration with the group led by UNSW Scientia Professor Andrew Dzurak. Key to the success of this electrical control method is the placement of the qubits inside a thin layer of specially purified silicon
The purified silicon was provided through collaboration with Professor Kohei Itoh from Keio University in Japan n
Yajun Gao and Professor Paul H. M. van Loosdrecht from the University of Cologne have made now substantial progress in this field in collaboration with researchers from Jilin University (China) and the University of Nottingham (UK).
Nagoya, Japan-Yutaro Saito, Yasutomo Segawa and Professor Kenichiro Itami at the Institute of Transformative Biomolecules (ITBM
a graduate student who conducted the experiments.""Nitrogen-based ligands are used usually in C-H aromatic borylation reactions,
"said Thamer Almoneef, a Ph d. student.""More than 80 percent of our energy today comes from burning fossil fuels,
"explained Omar M. Ramahi, professor of electrical and computer engineering. Metasurfaces are formed by etching the surface of a material with an elegant pattern of periodic shapes.
"said Bharat Bhushan, Ohio Eminent Scholar and Howard D. Winbigler Professor of mechanical engineering at Ohio State.
says Timothy Swager, the John D. Macarthur Professor of Chemistry at MIT. This MIT device, based on modified carbon nanotubes, can detect amines produced by decaying meat.
"The paper's lead author is graduate student Sophie Liu. Other authors are former lab technician Alexander Petty and postdoc Graham Sazama.
Medical Doctors and students all around the world will be enabled to travel inside 3d cells in full color by simply downloading STEVE on their laptop declares Dr. Yann Cotte, CEO and cofounder of Nanolive SA.
a Phd student in the team led by Jürgen Steimle at the Cluster of Excellence at Saarland University.
Professor Paul Freemont, co-Director of the Centre for Synthetic biology & Innovation, says: This system is an exciting development for the field of synthetic biology.
Professor Stephen Chambers, CEO of Synbicite, says: The way BASIC has been designed lends itself very well to automation and high throughput processes,
Professor Martin Pule, University college London, one of the lead researchers on the study said:""Anything you could possibly think of in terms of imaging complex activity within an organ,
Professor Melanie Welham BBSRC Executive director, Science, said:""Fundamental bioscience research is vital to reveal the biological mechanisms underlying normal physiology across the lifespan.
but important step, said Dmitri Strukov, a professor of electrical and computer engineering. With time and further progress, the circuitry may eventually be expanded
"said Magnus Egerstedt, Schlumberger Professor in Georgia Tech's School of Electrical and Computer engineering.""Instead, the operator controls an area that needs to be explored.
Fernando Bresme, professor of chemical physics at the Imperial College in London and a leading theorist on soft matter physics.
Yoke Khin Yap, a professor of physics at Michigan Technological University, has worked with a research team that created these digital switches by combining graphene and boron nitride nanotubes.
The research jointly lead by Professor Christoph Hagemeyer, Head of the Vascular Biotechnology Laboratory at Baker IDI Heart and Diabetes Institute and Professor Frank Caruso,
"Professor Hagemeyer said this latest step offers a revolutionary difference between the current treatments for blood clots and
Professor Hagemeyer said. nce located at the site of the blood clot, thrombin (a molecule at the centre of the clotting process) breaks open the outer layer of the nanocapsule,
Professor Frank Caruso from the Melbourne School of engineering said the targeted drug with its novel delivery method can potentially offer a safer alternative with fewer side effects for people suffering a heart attack
reducing its accumulation in tumors. Many molecular packaging systems have been developed to deliver the drug while counteracting these effects, with a protein-bound version of the drug called Abraxane currently the leading therapy.
But Ashutosh Chilkoti, professor and chair of the Department of Biomedical engineering at Duke university thought his team could do better.
Nogales, who is also a professor of biophysics and structural biology at UC Berkeley and investigator with the Howard Hughes Medical Institute, is a leading authority on the structure and dynamics of microtubules.
and graduate student Nikhil Chavan-Dafle, has developed a model that predicts the force with which a robotic gripper needs to push against various fixtures in the environment
Professor Heejun Yang of SKKU said, here are many candidates for 2d semiconductors, but Mote2 has a band gap of around 1 ev
an ECE graduate student and the lead author of the research reported this week in Applied Physics Letters("Polarized quantum dot emission in electrohydrodynamic jet printed photonic crystals),
and confirm that by observing fluorescenctce confocal microscope"explained the first author, master's degree student Satoshi Yagi,
"said Bernhard Palsson, the Galetti Professor of Bioengineering at UC San diego and corresponding author on the paper."
Just a few feet away, Phd student Joao Ramos stands on a platform, wearing an exoskeleton of wires and motors.
Phd student Joao Ramos demonstrates the Balance Feedback Interface, a system that enables an operator to control the balance and movements of a robot, through an exoskeleton and motorized platform.
Ramos and his colleagues, including Phd student Albert Wang and Sangbae Kim the Esther and Harold E. Edgerton Center Career development Assistant professor of Mechanical engineering, will present a paper on the interface at the IEEE/RSJ International Conference on Intelligent Robots and Systems in September.
and a Ph d student in Gus lab. The researchers also incorporated microneedles into the system, applying them on top of the microcapsules.
and a Ph d student in Zhus lab. Were now exploring how this tool can be used to apply drugs efficiently
Stanimir Metchev, a Physics & Astronomy Professor at Western University in Canada and at Stony Brook University, is a co-investigator on the scientific study,
along with Rahul I. Patel, a Phd student in Stony Brooks Department of physics & Astronomy. They are both members of the international Gemini Planet Imager Exoplanet Survey (GPIES) team
The new planet is called 51 Eridani b. The GPI is a new astronomy instrument operated by an international collaboration headed by Bruce Macintosh, a Professor of Physics in the Kavli Institute at Stanford.
and ice in the planetary system,"explains Professor Metchev. These are much like the dust
a little more massive than our sun a perfect target,"says James Graham, a professor at UC Berkeley and Project Scientist for GPI.
an amiable professor stationed at POSTECH speaks in rapid bursts when detailing the experiment, "We transferred electrons from the dopant-potassium-to the surface of the black phosphorus,
Professor Kim explained, "Graphene is a Dirac semimetal. It's more efficient in its natural state than black phosphorus
Overtext Web Module V3.0 Alpha
Copyright Semantic-Knowledge, 1994-2011