Paul Weiss distinguished professor of chemistry and biochemistry and a member of UCLA's California Nanosystems Institute developed the method for producing the nanoribbons with Patrick Han and Taro Hitosugi professors at the Advanced Institute
and advanced manufacturing,"said Gregory Washington, dean of The Henry Samueli School of engineering.""The Samueli School is poised to move forward as a force in this area
For quantum computing to become a reality we need to operate the bits with very low error rates says Scientia Professor Andrew Dzurak who is Director of the Australian National Fabrication Facility at UNSW where the devices were made.
The purified silicon was provided through collaboration with Professor Kohei Itoh from Keio University in Japan.
and designed said Peng Yin senior author of the paper Wyss core faculty member and Assistant professor of Systems Biology at Harvard Medical school.
The research which has been published in the journal Small drew on the medical expertise of Dr Neil Smyth and Dr Michael Ardern-Jones as well as contributions from physicist Professor Otto Muskens.
Liu's research article co-authored by eight others including Professors Frank Gu and Lyndon Jones from Waterloo recently appeared in Nano Research the leading publication on nanotechnology and nanoscience e
"said Professor Steve Evans, from the School of Physics and Astronomy at the University of Leeds and a co-author of the paper.
'and was used the technique by Professor Evans and his team in this research. The ability to controllably'write
"explained Professor Evans. Aside from biological applications, this area of research could revolutionise renewable energy production. Working in collaboration with researchers at the University of Sheffield,
Professor Evans and his team have all of the membrane proteins required to construct a fully working mimic of the way plants capture sunlight.
Professor Evans concludes:""This is part of the emerging field of synthetic biology, whereby engineering principles are being applied to biological parts
"says Professor Arno Rauschenbeutel (TU Wien). His team has succeeded now in breaking this symmetry of emission using gold nanoparticles coupled to ultra-thin glass fibres.
This is an exciting breakthrough in nanomedicine said IBN Executive director Professor Jackie Y. Ying. A key challenge in chemotherapy is ensuring that the drugs are delivered only to the tumor
The motors could also be operated in significantly higher temperatures than the present ones says Professor Juha Pyrh nen who has led the design of the prototype at LUT.
Consequently finding a more efficient material to replace the copper conductors would lead to major changes in the industry tells Professor Pyrh nen.
scaling up the production capacity together with improving the yarn performance will facilitate major steps in the future believes Business Development Manager Dr. Marcin Otto from Teijin Aramid agreeing with Professor Pyrhnen.
a professor of materials science and engineering at Illinois."Our current understanding of nanoscale thermal transport isn't nuanced enough to quantitatively predict
and professor at Northern Illinois University but what was missing was a partnership between people that have the know-how at a lab a university and a company.
The creation of this material is described in a paper published in the journal Advanced Materials co-authored by MIT postdoc Jeffrey Chou professors Marin Soljacic Nicholas Fang Evelyn Wang and Sang-Gook
and materials science to advance solar energy harvesting says Paul Braun a professor of materials science and engineering at the University of Illinois at Urbana-Champaign who was involved not in this research.
Co-author Professor Jonathan Coleman AMBER added This is a real alternative to ITO displays and could replace existing touchscreen technologies in electronic devices.
In the journal APL Materials from AIP Publishing a team of Seoul National University (SNU) researchers led by Professor Gyu-Chul Yi describes their work growing Gan micro-rods
Professor Li and his research team also used the seesaw to experimentally demonstrate for the first time the mechanical control of transporting light.
He also is the James G. Dwyer Professor of Mechanical engineering at Purdue. The patented technology has been licensed exclusively to Bluevine Graphene Industries through the Purdue Office of Technology Commercialization.
"says Greer, a professor of materials science and mechanics in the Division of Engineering and Applied science at Caltech."
Saraf, a professor of chemical and biomolecular engineering said he envisions a stethoscope-like device that a doctor would press across a patient's chest to image the buried palpable structure.
Khosrow Behbehani, dean of the UT Arlington College of Engineering, said this research is representative of the University's role in fostering innovations that benefit the society,
The research was led by postdoctoral researcher Qunyang Li graduate student Xin-Zhou Liu and Robert Carpick professor and chair of the Department of Mechanical engineering and Applied Mechanics in Penn's School of engineering and Applied science.
They collaborated with Vivek Shenoy a professor in the Department of Materials science and engineering. The Penn contingent also worked with researchers from the Naval Research Laboratory and Brown University.
"said Thomas E. Mallouk, Evan Pugh Professor of Chemistry, Physics, and Biochemistry and Molecular biology at Penn State.
and more than a million times faster says Michael Fuhrer professor of physics at the University of Maryland and Monash University Australia.
The concept behind the detector is simple says University of Maryland Physics Professor Dennis Drew.
"said Professor Andrea Ferrari, Director of the Cambridge Graphene Centre.""This is a significant step forward to enable fully wearable and flexible devices.
and bioengineering research said Samir Mitragotri co-author and professor of chemical engineering and director of the Center for Bioengineering at UCSB.
The key according to UCSB professor of electrical and computer engineering Kaustav Banerjee who led this research is Mos2's band gap the characteristic of a material that determines its electrical conductivity.
This demonstration is said quite remarkable Andras Kis professor at École Polytechnique Fédérale de Lausanne in Switzerland and a leading scientist in the field of 2d materials and devices.
Professor Banerjee and his team have identified a breakthrough application of these nanomaterials and provided new impetus for the development of low-power
#Researcher's nanoparticle key to new malaria vaccine A self-assembling nanoparticle designed by a UCONN professor is the key component of a potent new malaria vaccine that is showing promise in early tests.
But a novel protein nanoparticle developed by Peter Burkhard, a professor in the Department of Molecular & Cell biology, in collaboration with David Lanar
Professor Mazhar Khan from UCONN's Department of Pathobiology is collaborating with Burkhard on the animal flu vaccine e
Argonne scientist Dean Miller is already looking ahead to incorporate this capability into the next challenge:
It is said potentially limitless Professor Dan Li of Monash University's Department of Materials Engineering.
Professor Li has invented a cost-effective and scalable way to split graphite into microscopic graphene sheets and dissolve them in water.
Professor Li's team has also been able to give graphene a more functional 3-D form by engineering it into an elastic graphene foam that retains its extraordinary qualities.
Professor Li likened his developments to having invented bricks and said it was time to bring in architects
"said senior author David Cobden, a UW professor of physics.""In the future, combinations of two-dimensional materials may be integrated together in this way to form all kinds of interesting electronic structures such as in-plane quantum wells and quantum wires, superlattices, fully functioning transistors,
The research groups of Professor Junk-Ki Park and Professor Hee-Tak Kim from Korea Advanced Institute of Science and Technology (KAIST) and Professor Yong-Min Lee
"Professor Jun Yuan, from York's Department of physics, added:""Our work can already explain the numerical discrepancies in the existing experimental data.
Co-author Professor Jonathan Coleman from Trinity college Dublin commented This stretchy material senses motion such as breathing pulse
It's like having an extremely powerful magnifying glass made out of gold said Professor Jeremy Baumberg of the Nanophotonics Centre at Cambridge's Cavendish Laboratory who led the research.
a UCLA professor of chemistry and biochemistry who led the research. Electrochemical capacitors, also known as ECS or supercapacitors, are an important technology for the future of energy storage and mobile power supplies,
Co-author of the study Professor Jongheop Yi from Seoul National University said: Our study has shown that used-cigarette filters can be transformed into a high-performing carbon-based material using a simple one step process
which can be achieved by incorporating a large number of small pores into the material continued Professor Yi.
It's been hard to develop something that releases medication for more than a couple of months says Paula Hammond the David H. Koch Professor in Engineering at MIT
because it's broadly applicable to a lot of systems says Kathryn Uhrich a professor in the Department of chemistry
Florian Libisch and Professor Joachim Burgdörfer (TU Vienna) provided computer simulations to calculate how the energy of the electrons changes in both materials
"said Srinivasan Chandrasekar, a Purdue University professor of industrial engineering and materials engineering.""However, our findings have implications beyond wear itself,
In 2012 Drs Felice Torrisi Tawfique Hasan and Professor Andrea Ferrari at the Cambridge Graphene Centre invented a graphene ink
Yung-Eun Sung is both a group leader at the Center for Nanoparticle Research at Institute for Basic Science*(IBS) and a professor at the Seoul National University.
UC Berkeley professor of mechanical engineering, has found a way to dramatically increase the sensitivity of a light-based plasmon sensor to detect incredibly minute concentrations of explosives.
of which can be compared directly to experimental data said Chris Marianetti a professor of materials science at Columbia University and coauthor of the study.
Professor Nicholas Long from the Department of chemistry at Imperial College London said the results show real promise for improving cancer diagnosis."By improving the sensitivity of an MRI examination
they are perhaps not as good at detecting smaller tumours in the early stages",added Professor Long.
Professor Long said:""We would like to improve the design to make it even easier for doctors to spot a tumour
"Halas, the Stanley C. Moore Professor in Electrical and Computer engineering and a professor of biomedical engineering, chemistry, physics and astronomy at Rice, said the potential applications for SECARS include chemical and biological sensing as well as metamaterials research.
Stephen Westland professor of color science and technology at Leeds University said in The Independent These new materials they are pretty much as black as we can get almost as close to a black hole as we could imagine.
environmentally friendly way to produce high performance lithium ion battery anodes,"said Zachary Favors, a graduate student working with Cengiz and Mihri Ozkan, both engineering professors at UC Riverside.
"says Alexandre Brolo, professor of chemistry specialised in nanotechnology research, who has been developing plasmonic biosensors at the University of Victoria, British columbia, Canada.
"said study leader Sungwoo Nam, a professor of mechanical science and engineering at the U. of I."With the shrinking approach,
Lots of pores for sulfur The chemists Professor Thomas Bein (LMU), Coordinator of the Energy conversion Division of the Nanosystems Initiative Munich, Professor Linda Nazar (University of Waterloo, Waterloo Institute
#Chirality-controlled growth of single-walled carbon nanotubes Recently, Professor Li Yan's research team developed a novel strategy to produce single-walled carbon nanotubes with specific chirality by applying a new family of catalysts,
Recent work by Professor Yan Li at Peking University shows that it is realized finally. I believe her idea to use W-based catalyst is the landmark of growth of carbon nanotubes.
"said Professor Shigeo Maruyama from The University of Tokyo, who also serves the president of Fullerene, Carbon nanotubes,
"Inspiringly, Professor Li and her collaborators have made a breakthrough on this issue. The catalysts, tungsten-based bimetallic alloy nanoparticles of non-cubic symmetry, have high melting points
The work was evaluated highly by Professor Jie Liu at Duke university, "The chirality-specific growth of single-walled carbon nanotubes is the most challenging and important issue in the field,
For practical applications these nanocarriers are highly desirable explains Francisco Raymo professor of chemistry in the University of Miami College of Arts and Sciences and lead investigator of this project.
Professor Lei Jiang and his group from State Key Laboratory of Organic Solids, Institute of Chemistry, Chinese Academy of Sciences, set out to study this unified bionic frontier.
Authors of the new paper are Ali Koymen, a professor of physics; Samarendra Mohanty, an assistant professor of physics;
"said Pamela Jansma, dean of the UT Arlington College of Science.""With their latest publication, Drs.
much better than other carbon fibers,"said Mauricio Terrones, professor of physics, chemistry and materials science and engineering, Penn State."
Electrical engineering professor Dr. Chongwu Zhou and USC Viterbi graduate students Haitian Chen Yu Cao, and Jialu Zhang developed this energy-efficient circuit by integrating carbon nanotube (CNT) thin film transistors (TFT) with thin film transistors comprised of indium, gallium and zinc oxide (IGZO)."
"said Dr. Chongwu Zhou, professor in USC Viterbi's Ming Hsieh Department of Electrical engineering.""Before then, we were working hard to try to turn carbon nanotubes into n-type transistors and then one day,
and Professor Ted Sargent was published this week in Nature Materials. Collecting sunlight using these tiny colloidal quantum dots depends on two types of semiconductors:
However, nanotechnology scientist and professor Jayan Thomas and his Ph d. student Zenan Yu have developed a way to both transmit and store electricity in a single lightweight copper wire.
For the better part of a half century these materials have been considered off the table for this kind of use says Nate Lewis the George L. Argyros Professor and professor of chemistry at Caltech and the principal investigator on the paper.
IBN Executive director Professor Jackie Y. Ying said, "Diseases caused by blood clots can be potentially fatal.
The development is described in a paper published in the journal Nature Materials by MIT professors Moungi Bawendi and Vladimir Buloviä#and graduate students Chia-Hao Chuang and Patrick Brown.
The new process is an extension of work by Bawendi the Lester Wolfe Professor of Chemistry to produce quantum dots with precisely controllable characteristics
Buloviä#the Fariborz Maseeh Professor of Emerging Technology and associate dean for innovation in MIT's School of engineering explains that thin coatings of quantum dots allow them to do what they do as individuals to absorb light very well
Arthur Nozik a research professor in chemistry at the University of Colorado who was involved not in this research says This result represents a significant advance for the applications of quantum dot films and the technology of low-temperature solution-processed quantum dot photovoltaic cells.#
Led by ASU Professor Hao Yan, the research team included ASU Biodesign Institute researchers Jinglin Fu, Yuhe Yang, Minghui Liu, Professor Yan Liu
and Professor Neal Woodbury along with colleagues Professor Nils Walter and postdoctoral fellow Alexander Johnson-Buck at the University of Michigan.
The new compound they designed in collaboration with Illinois'Roger Adams Professor of Chemistry Steven C. Zimmerman is not only more effective but also self-assembling.
ICREA Professor at ICFO Romain Quidant coordinator of the project comments the most fascinating finding is that we are capable of detecting extremely low concentrations of this protein in a matter of minutes making this device an ultra-high sensitivity state-of-the-art
The sensing mechanism, designed by Dr Ventsislav Valev and Professor Jeremy Baumberg from the Cavendish Laboratory, in collaboration with colleagues from the UK and abroad, uses a nanopatterned gold surface in combination with powerful lasers.
It was authored co by Cengiz S. Ozkan, a mechanical engineering professor, Mihrimah Ozkan, an electrical engineering professor,
Both processes appear to happen simultaneously said Jeffrey Rimer an engineering professor at the University of Houston
To solve this problem a research team led by nanoengineering professor Shaochen Chen created a 3-D-printed hydrogel matrix to house nanoparticles forming a device that mimics the function of the liver by sensing attracting
Yuan Chen a professor of chemical engineering at NTU led the new study working with Dingshan Yu Kunli Goh Hong Wang Li Wei and Wenchao Jiang at NTU;
Dai a professor of macromolecular science and engineering at Case Western Reserve and a co-author of the paper explained that most supercapacitors have high power density but low energy density
"Professor Jia said. Graphene is derived from carbon, the fourth most abundant element on earth. It has many useful properties,
"Professor Jia said. The research is published in Advanced Materials. The researchers are now working to fabricate a functional device e
All the data pointed to the same conclusion lead author Spencer Smith an assistant professor of neuroscience
me'â##and that has been manifest in a striped pattern UWA professor Shaun Collin told the Guardian.
The satellites orbit the earth and sends out thousands of radar pulses a second Sandwell a#geophysics professor#at Scripps.#
Quoting MIT energy professor Angela Belcher a study co-author an MIT press release notes that with time ticking down on lead-acid batteries in favor of lithium ion cells we need to be thinking ahead on handling a looming toxic waste problem:
and directional stability as doctoral student Christian Peters from the group led by Christofer Hierold Professor of Micro
#This makes the actuators more interesting for certain applications#says Salvador Panã research associate in the group led by Bradley Nelson Professor of Robotics and Intelligent Systems.
#The work is the result of many years of joint research between the two professors in the Department of Mechanical
#Google Deepmind has hired all seven founders of these startups with the three professors holding joint appointments at Oxford university where they will continue to spend part of their time#Hassabis notes in his blog post.#
and professors who want to use Openbci as a learning tool explains Russomanno. Another of Openbci#s exciting potentials is the fact that it is fully open source. Russomanno
Imperial#s Professor Davison has spoken also about the importance of  location tracking: e will research
The team comprised of Daniela Rus Professor of Electrical engineering and Computer science and Director of CSAIL Cagdas Onal Assistant professor of Mechanical engineering at the Worcester Polytechnic institute and Andrew Marchese a doctoral candidate in engineering at MIT created the robot to be autonomous.
At the Ecocloud center at EPFL Dr. Edouard Bugnion and Professor Babak Falsafi are carrying out research into energy-efficient memory architectures for data centres that can handle huge amounts of data.
 Mike Dooley the original product lead for Lego Mindstorm Robotics Steve Cooper Professor of CS & Ed at Stanford university Chairman of CSTA Andrea Thomaz Professor
Lighter than a feather these ultrathin film-like organic transistor integrated circuits are being developed by a research group led by Professor Takao Someya
In the beginningin the summer of 2008 Professor Raffaello Dndrea at the Institute for Dynamic Systems and Control at ETH Zurich envisioned an art installation consisting of single-rotor robotic units that would self-assemble on the ground
In America venture and privately-funded Rethink Robotics whose founder and CTO is ex-MIT Professor
was the work of MIT professors Angela Belcher, an expert on engineering viruses to carry out energy-related tasks,
Lloyd, a professor of mechanical engineering, explains that in photosynthesis, a photon hits a receptor called a chromophore,
Lloyd and Belcher, a professor of biological engineering, were reporting on different projects they had worked on,
a professor of chemistry and chemical biology at Harvard university who was involved not in this work. The research, he says, ombines the work of a leader in theory (Lloyd) and a leader in experiment (Belcher) in a truly multidisciplinary and exciting combination that spans biology to physics to potentially, future technology.?
He is currently Bruce Mahan Professor of Chemistry at the University of California, Berkeley. He received his S b. degree in Chemistry from MIT in 1966,
and demultiplexing,"said Daniel Mittleman, professor of engineering at Brown and senior author of a research paper on the subject, in a prepared statement."
a professor in the Department of Electrical and Computer engineering at the UC San diego Jacobs School of engineering and the senior author of the study. ull invisibility still seems beyond reach today,
"explains professor Henk Jonkers, of Delft University of Technology, in The netherlands.""If you have cracks,
said Dr. Paul S. Cederna, professor of plastic surgery and biomedical engineering at the University of Michigan.
professor of genetics at Harvard university and an author on the paper published this week in Science Express.
professor of bioethics at New york University. omeone will say let try to engineer embryos to see
Manalis, the Andrew and Erna Viterbi Professor in MIT departments of Biological engineering and Mechanical engineering, and a member of MIT Koch Institute for Integrative Cancer Research, is the paper senior author.
says Michael Roukes, a professor of physics, applied physics, and bioengineering at Caltech, who is pioneering the development of inertial imaging
a professor of immunology and infectious diseases at Harvard School of Public health who was involved not in the research. trikingly,
and James Fox all professors of biological engineering at MIT had identified the presence of a lesion,
says John Essigmann, the William R. 1956) and Betsy P. Leitch Professor in Residence Professor of Chemistry, Toxicology and Biological engineering at MIT,
the John D. Macarthur Professor of Physics at MIT. e use ultracold atoms to map out
MIT professor of materials science and engineering and director of the MIT Microphotonics Center. e don look at this the way we still look at fiber,
says Rajeev Ram, professor of electrical engineering at MIT. His group develops energy-efficient photonics, nd the way we do that is to miniaturize the devices,
and CEE department head Professor Markus Buehler, the study senior author published their findings In ACS Biomaterials Science & Engineering.
and other processes, is described in a paper by Department of Mechanical engineering Professor Evelyn Wang, graduate student Jeremy Cho,
says Satish Kandlikar, a professor of mechanical engineering at the Rochester Institute of technology, who was involved not in this research. uch control strategies will dramatically alter the heat transfer paradigm in many applications,
according to MIT professor and paper co-author Dina Katabi. ee working to turn this technology into an in-home device that can call 911
whose other co-authors include MIT professor Frédo Durand, Phd student Chen-Yu Hsu, and undergraduate intern Hongzi Mao. ee just at the beginning of thinking about the different ways to use these technologies.
who is the Truman and Nellie Semans/Alex Brown & Sons Professor of Earth and Ocean Sciences at Duke's Nicholas School of the Environment.
a professor at Dartmouth's Tuck School of business who specializes in corporate valuations, said that while financial data on these unicorns is limited often,
Professor Shin'ichi Ishiwata (Graduate school of Advanced Science and Engineering) and Research Assistant Makito Miyazaki's (Research Institute for Science and Engineering) research team at the Waseda Bioscience Research Institute
increasing energy efficiency and making energy environmentally benign and sustainable,"said Fanglin (Frank) Chen, a chemical engineering professor at the University of South carolina."
a professor at Clemson University and co-author of the work.""The CFO reacts with the excess Gd present in the grain boundary of GDC to form a third phase.
electronics and the environment,"said Michael L. Cherry, chair and professor, LSU Department of physics and Astronomy."
"Professor Stadler's magnetocaloric materials program is an example of this research that appears to be directly relevant to energy development and Louisiana's economy.
"Joining Kulkarni on the paper are his adviser, professor of brain and cognitive sciences Josh Tenenbaum;
#Lab team develops hyper-stretchable elastic-composite energy harvester A research team led by Professor Keon Jae Lee of the Department of Materials science and engineering at the Korea Advanced Institute of Science
Professor Lee said, "This exciting approach introduces an ultra-stretchable piezoelectric generator. It can open avenues for power supplies in universal wearable and biomedical applications as well as self-powered ultra-stretchable electronics."
Professor Cait Macphee, of the University of Edinburgh's School of Physics and Astronomy said:"
To address this need, Xunjia Cheng and Guodong Sui, both professors at Fudan University, sought to develop a device better suited for the field.
In a research paper published in the Journal of Cell biology, Alessandro Vindigni, Ph d.,professor in the Edward A. Doisy Department of Biochemistry and Molecular biology at Saint louis University
said Ryszard Stroynowski, a collaborator on one of the collider's key experiments and a professor in the Department of physics at Southern Methodist University,
the physics professor who leads the SMU data-link team.""Failure of any transmitter results in the loss of a chunk of valuable data.
expensive business,"explains Professor Jamshed Anwar, from Lancaster University's Chemistry department.""Crystal'seeds'(very small crystals) are added to the process to act as a'template'to ensure more of the same shape
Professor Anwar and his colleagues, Dr Shahzeb Khan, of Malakand University, Pakistan, and Professor Lennart Lindfors, of Astrazeneca, Sweden, have mapped out'in diagram format the actual movements made by chemical molecules on their breeding journey using computer simulations.
The simulations rely on understanding the'forces'between the atoms from which they compute what the molecules do,
"adds Professor Anwar.""It means that one can intervene in the crystallisation process and actually engineer the shape,
"says Professor Anwar. Current ideas are that molecules of one of the mirror images came together and led to a chance formation of a mirror crystal which, subsequently, induced massive crystallisation of the same image."
and given rise to thousands of new crystals of the same image,"adds Professor Anwar A
T. C. Chang Professor of Computer science at Columbia Engineering, has invented a prototype video camera that is the first to be fully self-poweredt can produce an image each second, indefinitely, of a well-lit indoor scene.
Overtext Web Module V3.0 Alpha
Copyright Semantic-Knowledge, 1994-2011