The research team, led by Professor Monica Craciun, have used this new technique to create the first transparent and flexible touch-sensor that could enable the development of artificial skin for use in robot manufacturing.
Professor Craciun from Exeter Engineering department, believes the new discovery could pave the way for graphene-driven industrial revolutionto take place.
Professor Seigo Tarucha from the University of Tokyo, coordinator of the Global Center of Excellence for Physics at Tokyo university and director of the Quantum Functional System Research Group at Riken Center
After starting the collaboration with Professor Craciun group, we are using Exeter CVD grown graphene instead of the exfoliated material in our graphene-based devices, whenever possible.
Dr Thomas Bointon, from Moorfield Nanotechnology and former Phd student in Professor Craciun team at Exeter added:
Professor Saverio Russo, co-author and also from the University of Exeter added: his breakthrough will nurture the birth of new generations of flexible electronics and offers exciting new opportunities for the realization of graphene-based disruptive technologies.
a professor in the Department of Electrical and Computer engineering at UC San diego and the senior author on the Science paper. ur approach conditions the information before it is sent even,
said UC San diego electrical engineering Ph d. student Eduardo Temprana, the first author on the paper. The frequency comb ensured that the system did not accumulate the random distortions that make it impossible to reassemble the original content at the receiver.
John Laporte Given Professor of Immunology and Infectious diseases. s drug resistance is a major problem for malaria control and eradication,
Anna C. Balazs, Phd, Distinguished Professor of Chemical and Petroleum Engineering and Steven P. Levitan, Phd, John A. Jurenko Professor of Electrical and Computer engineering, integrated models for self-oscillating polymer gels and piezoelectric micro-electric-mechanical systems to devise a new
reactive material system capable of performing computations without external energy inputs, amplification or computer mediation. Their research, Achieving synchronization with active hybrid materials:
Professor Xudong Wang, one of the authors of the study, noted that he friction between the tire
The advance is from the lab of Uli Wiesner, the Spencer T. Olin Professor of Engineering in the Department of Materials science and engineering,
says Ian Macdonald, a professor of ophthalmology with the Faculty of medicine & Dentistry at the University of Alberta,
said Erica Ollmann Saphire, senior author of the new study, professor at TSRI and director of the Viral Hemorrhagic fever Immunotherapeutic Consortium.
A University of Virginia engineering professor and her former graduate student are already there. Maite Brandt-Pearce, a professor in the Charles L. Brown Department of Electrical and Computer engineering,
and Mohammad Noshad, now a postdoctoral fellow in the Electrical engineering Department at Harvard university, have devised a way of using light waves from light-emitting diode fixtures to carry signals to wireless devices at 300 megabits per second from each light.
and earned his doctoral degree from U. Va. in 2013. e came up with the idea together,
and so it makes sense that we wanted the names of both professor and student on the patent,
Jie Lian, another one of Brandt-Pearce graduate students who has finished his master degree in electrical engineering
A group of researchers, lead by Vasily M. Studitsky, professor at the Lomonosov Moscow State university, discovered a new mechanism of DNA repair,
The damage of the DNA, if not repaired, leads to accumulation of mutations, cell death, and to the development of various diseases, including neurodegenerative, e g.
HMS professor of microbiology and immunobiology and senior author of the paper. think if you were trying to develop a viral-specific target to block the replication of one of these viruses,
A team from Whelan lab, working with a group led by Stephen Harrison, Giovanni Armenise Harvard Professor of Basic Biomedical science at HMS and a Howard hughes medical institute (HHMI) investigator
At the end of 2009n collaboration with Phd student Søren Helstrup Kvist from DTU Electrical Engineeringhe company further developed the so-called 2. 4 GHZ technology
He has acted as supervisor for the group of Phd students who, together with Jesper Thaysen, have developed the antenna technology used in GN Resound ear-to-ear hearing aids today.
in a bid to facilitate learning and inclusion within the school environment. The gaming technology developed with Dreamworks contractor Torus Games and Australian Technology Commercialisation firm,
Disruption to these processes can lead to difficulties in learning and academic performance, as well as difficulties developing social skills.
Lead researcher, Professor Kim Cornish, from the Monash School of Psychological sciences, said traditional methods, such as IQ TESTS
According to Professor Cornish, these testing methods also did not isolate which areas needed improvement, or in fact which interventions have made the improvement.
Numeracy abilitiesthe new gaming technology developed by Professor Cornish and her team is being commercialised by a spinoff company, Tali Health,
According to Professor Cornish, while there are literally hundreds of apps available that claim to improve attention, intelligence,
At Monash and previously at Mcgill University in Canada, Professor Cornish has been studying attention delays in children with developmental disorders,
a team led by University of Wisconsin-Madison Professor Laura Kiessling describes the knack of a human protein known as intelectin to distinguish between our cells
In addition to Kiessling lab, groups in the labs of UW-Madison bacteriology Professor Katrina Forest, Scripps Research Institute cell and molecular biology Professor James Paulson,
and Emory University biochemistry Professor Richard Cummings contributed to the study. Intelectin is not new to science, Kiessling notes,
The research team led by Professor Chun T. Rim of the Nuclear and Quantum Engineering Department at KAIST has made great strides in WPT development.
Professor Rim team has showcased successfully the technology on July 7, 2015 at a lab on KAIST campus. They used high-frequency magnetic materials in a dipole coil structure to build a thin,
Professor Rim succeeded in transferring 209 watts of power wirelessly to the distance of five meters.
Professor Rim said, ur transmitter system is safe for humans and compatible with other electronic devices.
and a professor of radiology and of medicine at Weill Cornell Medical College. f physicians can accurately predict who is at risk,
Juan Hinestroza and his students live in a cotton-soft nano world, where they create clothing that kills bacteria, conducts electricity, wards off malaria,
Taking advantage of cotton irregular topography, Hinestroza and his students added conformal coatings of gold nanoparticles,
Two of Hinestroza students created a hooded bodysuit embedded with insecticides using metal organic framework molecules,
Other students have used MOFS to create a mask and hood capable of trapping toxic gases in a selective manner.
was made in the lab of Federico Capasso, the Robert L. Wallace Professor of Applied Physics and Vinton Hayes Senior Research Fellow in Electrical engineering at the Harvard John A. Paulson School of engineering and Applied science (SEAS).
and graduate student in the Capasso lab. t important that we not only observed these wakes but found multiple ways to control
and of his students which is especially gratifying and motivating, he added. The $10, 000 grant provided by the award will be used in direct support of the development of the Omnisense lab-on-a-chip. he promise and delivery of high-throughput, real-time,
Janssen, who received his doctoral degree from Leiden University, is no stranger to the sensing of the very small.
said UCSB mechanical engineering professor Sumita Pennathur. t a big step forward in terms of bringing out nanofluidic technology to real biomedical applications of disease diagnosis
Professor Cheng-Hock Toh from the University Institute of Infection and Global Health, said: he translational impact to patients with sepsis can extend beyond biomarker prediction of heart complications,
and we are delighted to be associated with this study program, says Ernesto Bertarelli, co-chair of the Bertarelli Foundation,
a professor of biological engineering at MIT. e wanted to work with strains like B. thetaiotaomicron that are present in many people in abundant levels,
HMS professor of medicine and director of the Center for Virology and Vaccine Research at Beth Israel Deaconess. e are encouraged very by the results of this latest preclinical HIV-1 vaccine study
The heat storage ceramic discovered by the research group of Professor Ohkoshi at the University of Tokyo Graduate school of Science preserves heat energy for a prolonged period.
INVISTA Professor of Chemical and Biomolecular engineering at NC State and the paper corresponding author. e show here an inexpensive and environmentally responsible method to make effective antimicrobials with biomaterial cores. he researchers used the nanoparticles
said Kevin Healy, a UC Berkeley professor of bioengineering, who is co-senior author of the study with Dr. Bruce Conklin,
a senior investigator at the Gladstone Institute of Cardiovascular disease and a professor of medical genetics and cellular and molecular pharmacology at UC San francisco. his technology could help us quickly screen for drugs likely to generate cardiac birth defects,
said Professor Shinsaku Nakagawa, one of the authors of the study from Osaka University. ecause the new patch is so easy to use,
and in some cases even more effective, said Professor Nakagawa. Previous research has evaluated the use of microneedles made of silicon or metal,
said Professor Nakagawa. Source: Eurekaler a
#Physicists discover long-sought entaquarkparticle CERN Large hadron collider announced Tuesday that researchers discovered a remarkable class of particles known as pentaquarks that could reshape scientistsunderstanding about the properties of matter.
According to Syracuse physicist Sheldon Stone, graduate student Nathan Jurik was studying the decay of a different particle
when the pentaquark was detected. e asked a graduate student to examine what we thought was an uninteresting and minor source of background events,
Viswanathan, Mccloskey and their colleagues Mechanical engineering Ph d. Student Vikram Pande, Abhishek Khetan, a visiting Ph d. student,
a graduate student in Mccloskey lab have published just a new paper in the Proceedings of the National Academy of Sciences,
Jae-Woong Jeong, Ph d.,a bioengineer formerly at the University of Illinois at Urbana-Champaign, worked with Jordan G. Mccall, Ph d.,a graduate student in the Bruchas lab,
said John A. Rogers, Ph d.,professor of materials science and engineering, University of Illinois at Urbana-Champaign and a senior author. ltra-miniaturized devices like this have tremendous potential for science and medicine. ith a thickness of 80 micrometers and a width of 500 micrometers,
a Cornell entomology professor and a co-author of the study along with Keri San miguel, the manager in Scott lab. his is an insecticide that is based on a specific gene.
Professor Katsuhiko Shirahige (Institute of Molecular and Cellular Biosciences) and Ph d student Toyonori Sakata (Graduate school of Agricultural and Life sciences), isolated from cells
a Professor in the Faculty of medicine Department of Laboratory Medicine and Pathobiology. ee now discovered the DNA mbulanceand the road it takes. ekhail discovered this DNA ambulance,
said graduate student and first author Daniel Chung. lmost every aspect of disease can be linked to problems with DNA. ow Mekhail team is searching for more DNA ambulances
For well more than a decade, Chang Lu, a professor of chemical engineering at Virginia Tech, has worked on the development of tools to effectively analyze living cells with the long-term goal of gaining a better understanding of a range of diseases.
Lu and his students develop small microfluidic devices with micrometer features for examining molecular events inside cells.
Petra Fromme, Raimund Fromme, John Spence and Uwe Weierstall, with their teams of researchers and students, including:
researchers Nadia Zatsepin and Stella Lisova from the Department of physics as well as the graduate students Shibom Basu, Jesse Coe, Chelsie Conrad and Shatabdi Roy-Chowdhury from the Department of chemistry and Biochemistry,
Traverso and Robert Langer, the David H. Koch Institute Professor at MIT and a member of the Koch Institute, are the senior authors of a paper in the issue of Nature Materials that describes the application of this new
a professor of medical science and engineering at Brown University who was not involved with this study. his is a very smart approach.
and Jonathan Weissman, Phd, professor of cellular and molecular pharmacology at UCSF and a Howard hughes medical institute (HHMI) investigator.
Doudna, professor of chemistry and of cell and molecular biology at Berkeley, and an HHMI investigator,
Cun-Zheng Ning, professor in the School of Electrical, Computer and Energy Engineering, authored the paper, monolithic white laser, with his doctoral students Fan Fan, Sunay Turkdogan, Zhicheng Liu
He and his graduate students turned to nanotechnology to achieve their milestone. The key is that at nanometer scale larger mismatches can be tolerated better than in traditional growth techniques for bulk materials.
He and his students have been researching various nanomaterials to see how far they could push the limit of advantages of nanomaterials to explore the high crystal quality growth of very dissimilar materials.
said V. Reggie Edgerton, senior author of the research and a UCLA distinguished professor of integrative biology and physiology,
The team was led by V. Reggie Edgerton, Ph d.,a distinguished professor of integrative biology and physiology at UCLA and Yury Gerasimenko, Ph d.,director of the laboratory of movement physiology at Pavlov Institute and a researcher
a professor of chemistry and chemical biology at Harvard university. Existing implantable electrodes are too large and rigid,
That possible because Google engineers created slimmed-down versions of the artificial neural networks it uses in a technique called deep learning (see 0 Breakthrough Technologies 2013:
Deep Learning. They live inside the translation app and recognize the characters used by the different languages,
Nvidia Demos a Car Computer Trained with Deep Learning Many cars now include cameras or other sensors that record the passing world and trigger intelligent behavior,
Most impressive, it includes a system trained to recognize different objects using a powerful technique known as deep learning (see 0 Breakthrough Technologies 2013:
Deep Learning. Another computer from Nvidia, called the Drive CX, is designed to generate realistic 3-D maps
said John Leonard, a professor of mechanical engineering at MIT, who works on autonomous car technology. t the first such computer that seems really designed for a carn autopilot computer.
The introduction of Nvidia product is a landmark moment for deep learning, a technology that processes sensory information efficiently by loosely mimicking the way the brain works.
Yoshua Bengio, a deep-learning researcher at the University of Montreal, says the Nvidia chipset is an important commercial milestone. would not call it a breakthrough,
Yann Lecun, a data scientist at New york University who leads deep-learning efforts at Facebook (see acebook Launches Advanced AI Effort to Find Meaning in Your Posts,
said Shu Yang, a professor in Penn Engineering departments of Materials science and engineering and Chemical and Biomolecular engineering.
said Ahmad Kabbani, a professor of chemistry at the Lebanese American University, Beirut. here no way we can grind two nanotubes in a microscope
said Prof Stanga, who works in Manchester University Institute of Human Development as Professor of Opthalmology & Retinal Regeneration.
a professor urology surgery at Vanderbilt who is consulting on the project. here are a myriad of potential applications in some really exciting areas such as endoscopic neurosurgery,
Professor Asa Barber from the university School of engineering said: ntil now we thought that spider silk was the strongest biological material because of its super-strength
The university's associate physics professor, Jason Petta, who led the study, said that researchers had created the smallest laser possible powered by single electrons that burrow through quantum dots.
a professor of biochemistry in the College of Agriculture and Life sciences. There's so much information to sift through that it was simply too daunting of a numbers game.
and his students found a way to look in those pieces and find a really, really important gene just sitting there,
says researcher Richard Andersen, a neuroscience professor at Caltech. Instead, his group targeted a different area in the brain,
a professor at Wayne State university in Detroit, tells The Verge.""Current methods don really provide great information on the chance of natural pregnancy
a professor of urology at Cornell University who was not involved with this study.""There certainly is need a potential for this method."
Yet-Ming Chiang, the Kyocera Professor of Ceramics at MIT, was of the view that the existing technology is not perfect
Finette, 58, is a professor of pediatrics, microbiology and molecular genetics at the University of Vermont College of Medicine and director of the Global Health and Humanitarian Opportunity Program.
Heath, 64, is a professor of pediatrics, and chief of inpatient and critical care pediatrics at The University of Vermont Children's Hospital.
"Finette got a diploma from the London School of Hygiene and Tropical Medicine and another diploma in international humanitarian assistance from Fordham University in New york and the United nations in a program called the Center for International Humanitarian Cooperation."
"So I got some educational background in these areas, "Finette said. After that, Finette went to work,
Donowitz graduated from Duke university in 2010 with an MBA and a master's degree in environmental management.
Since graduation he's been working off and on for Mars, Inc, . of M&m's and Snickers fame, helping the company on a project in Indonesia to help the cocoa communities Mars buys from."
This is the power of neural networks and the power of deep learning. p
#Gogoro's Electric scooter Has Swappable Batteries Taiwanese company, Gogoro has come up with a smart electric scooter that runs on swappable electric batteries.
his is the first significant rung of the ladder towards proving a general learning system can work.
whereas Michael Solomon, one of her colleagues and a professor of chemical engineering at the University of Michigan, explained that the chains in groups demonstrated great potential. f we can get the chains to swarm together,
Teresa Heinz Professor of Green Chemistry Terence Collins. Professor Collins said:""Pharmaceuticals can be bioactive at low environmentally-relevant concentrations
"Brunel University Ecotoxicology professor and Institute of Environment, Health and Societies director Susan Jobling said:"
#MIT researcher develops solar-powered desalination technology A student at Massachusetts institute of technology (MIT) has designed a village-scale desalination technology that is powered by the sun
MIT Mechanical engineering Phd student Natasha Wright worked for the project over three years to come up with the technology,
Redlabs founder and University of Houston business professor Hesam Panahi manned a turntable on stage, spinning tunes as DJ Surge.
Intel was able to demonstrate for the first time with Professor Hawking an Intel-created open-source communications platform to replace his decades-old system,
Professor Hawking is known not only for his work, but also for his MND related to amyotrophic lateral sclerosis (ALS), a condition that has progressed over the years.
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