and could lead to better treatments for diseases such as for osteoporosis. BBSRC-funded research by Professor Stefan Przyborski
Professor Shu Kobayashi's group at the Graduate school of Science has developed highly active immobilized catalysts (heterogeneous catalysts)
Professor Kobayashi's application of flow chemistry techniques to the production of fine chemicals using heterogeneous catalysts has resulted in simple method to synthesize (R)
Professor Kobayashi says"This new technology can be applied to not only other gamma aminobutyric-acids acids and medicines but also various chemicals such as flavors, agricultural chemicals,
"Project supervisor Professor Vic Callaghan added:""This technology has the potential to significantly change in a positive way the future of our lifestyles,
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 July 27 issue of Nature Materials that describes the application
a professor of medical science and engineering at Brown University who was not involved with this study. his is a very smart approach.
The paper other authors include Andrew Bellinger, Dean Glettig, Ross Barman, Young-Ah Lee, Cody Cleveland, Veronica Montgomery,
the John D. Macarthur Professor of Physics at MIT. e use ultracold atoms to map out
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,
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,
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;
said Jeffrey Fredberg, professor of bioengineering and physiology at the Harvard Chan School and one of the senior authors of the study,
and Jeffrey M. Drazen, a pulmonologist and professor in the department, who studies echanotransductionin asthma how the bronchial constriction of asthma might trigger cell changes in the epithelium.
says Keith Schwab, a Caltech professor of applied physics, who led the study. ut we know that even at the quantum ground state, at zero-temperature, very small amplitude fluctuationsr noiseemain.
Schwab says. n the 1970s, Kip Thorne Caltech Richard P. Feynman Professor of Theoretical physics, Emeritus and others wrote papers saying that these pulsars should be emitting gravity waves that are nearly perfectly periodic,
the Edwin Sibley Webster Professor in MIT Department of Electrical engineering and Computer science realized was that the physical-time order of distributed computations doesn really matter,
a core faculty member at Harvard Wyss Institute, has developed now a strategy that has improved experimentally bone repair by boosting the survival rate of transplanted stem cells
In addition to Mooney, the team included Georg Duda, a Wyss associate faculty member and director of the Julius Wolff Institute for Biomechanics and Musculoskeletal Regeneration at Charité Universitätsmedizin in Berlin,
Mooney is also the Robert P. Pinkas Family Professor of Bioengineering at the Harvard John A. Paulson School of engineering and Applied sciences.
a UCLA professor of physics and astronomy and a member of UCLA California Nanosystems Institute, is published September 21 in the online edition of the journal Nature Materials.
says James Collins, the Termeer Professor of Medical Engineering and Science in MIT Department of Biological engineering and Institute of Medical Engineering and Science (IMES).
a professor of biotechnology and bioengineering at The swiss Federal Institute of technology in Zurich, described this experiment as an legant proof of conceptthat could lead to greatly improved treatments for viral infection. entinel designer cells engineered with the DNA sense
the Goizueta Foundation Professor of Biomedical engineering. anoparticles are large enough to keep from going through the skin surface,
said co-author Michael Girardi, a professor of dermatology at Yale Medical school. n fact, the indirect damage was worse
thanks to findings published today by Professor Gilbert Bernier of the University of Montreal and its affiliated Maisonneuve-Rosemont Hospital.
Professor Gilbert explained. ithin 45 days, the cones that we allowed to grow towards confluence spontaneously formed organized retinal tissue that was 150 microns thick.
Beyond the clinical applications, Professor Bernier findings could enable the modelling of human retinal degenerative diseases through the use of induced pluripotent stem cells,
Pedro del Nido, chief of cardiac surgery at Boston Children Hospital, the William E. Ladd Professor of Child Surgery at Harvard Medical school,
said Conor Walsh, a contributing author of the study, a Wyss Institute core faculty member, an assistant professor of mechanical and biomedical engineering AT SEAS,
UCLA professor Yang Yang, member of the California Nanosystems Institute, is renowned a world innovator of solar cell technology
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,
said Polina Golland, a professor of electrical engineering and computer science at MIT and leader of the project,
said Mubarak Shah, computer science professor and director of the Center for Research in Computer Vision at the University of Central Florida, in a press release.
the UCLA professor involved in the project. urrently, imaging single DNA molecules requires bulky, expensive optical microscopy tools,
said Yiying Wu, professor at Ohio State. The solar panel is a solid sheet, rather than a mesh as in the previous design.
said Yiying Wu, professor at Ohio State. The solar panel is a solid sheet, rather than a mesh as in the previous design.
but also the safest way to prevent fatal liver failure by cell transplantation,"lead researcher professor Michael Karin from University of California, San diego (UCSD) School of medicine.
"said principal investigator Juha Kere, professor at the Karolinska Institutet. The researchers had to develop a new way of analysing the results
"Our results provide novel insights into the regulation of early embryonic development in human,"added Outi Hovatta, professor at Karolinska Institutet's department of clinical science, intervention and technology.
In a roundtable discussion on his recent breakthroughs and the future of synthetic photosynthesis, Peidong Yang, a professor at the University of California, Berkeley said his hybrid inorganic/biological systems give researchers new tools
"said Thomas moore, a professor of chemistry and biochemistry at Arizona State university. Ultimately, researchers hope to create an entirely synthetic system that is more robust and efficient than its natural counterpart.
or literally,"said Ted Sargent, the vice-dean of research for the Faculty of Applied science and Engineering at University of Toronto."
Lee Berger, a professor at the University of the Witwatersrand in Johannesburg who led the work,
Jennifer Doudna, professor at the University of California, Berkeley, led one of the research groups.
Another pioneer is Prashant Mali, professor at University of California, San diego. Born in Rajasthan and educated at IIT-B, John Hopkins and Harvard,
"said Martin Yarmush, professor of biomedical engineering at Rutgers University. Until now, animal research on central nervous system disorders, such as spinal cord injury and Parkinson's disease, has been limited
"said corresponding author Joseph Merola, a professor at the Virginia Institute of technology.""One of the reasons for this is that the compounds in this paper that target MRSA are very specific,
and their metabolism in animals,"said Joseph Falkinham, a professor of microbiology in the College of Science and an affiliate of the Virginia Tech Centre for Drug Discovery.
"said senior author Holger Schmidt, professor of Optoelectronics at University of California, Santa cruz.""We're detecting the nucleic acids directly,
"said Alfred S Mcewen, a professor of planetary geology at the University of Arizona and the principal investigator of images from a high-resolution camera on Nasa's Mars Reconnaissance Orbiter.
a professor of civil and environmental engineering who supervises plastics research by Wu and others at Stanford."
a professor of civil and environmental engineering who supervises plastics research by Wu and others at Stanford."
said senior author Mark Greene, professor at Perelman School of medicine. This one-two punch renders the tumours highly sensitive to chemotherapy,
"said one of the researchers Sriram Subramanian, professor of informatics at University of Sussex in England."
But here we have managed to control the sound to a degree never previously achieved,"Bruce Drinkwater, professor of ultrasonics at University of Bristol in Britain, pointed out t
"Monash Dean of Engineering Frieder Seible told AAP. Federal Opposition Leader Bill Shorten and Victorian MP Anna Burke toured the lab on Friday, spruiking Labor's aspirational 50 per cent renewable energy by 2030 target."
Professor Seible said the new cells could be publicly available in just a few years with government support.
Professor Zhang Ke and doctor Cai Hong went to Sweden for an academic meeting and encountered a metal 3d printer.
The new research, led by Professor Jennifer A. Lewis, instead uses active mixing and fast-switching nozzles, allowing for the printing of concentrated viscoelastic inks and the simultaneous control of composition and geometry during printing.
Lewis is the Hansjörg Wyss Professor of Biologically Inspired Engineering at the Harvard John A. Paulson School of engineering and Applied sciences (SEAS) and a Core Faculty member at the Ywss Institute for Biologically Inspired Engineering at Harvard.
explains Chiara Daraio, professor of mechanics and materials at ETH Zurich and one half of the research team behind the project.
mechanical engineering professor Robert Shepherd. The 3d printed heart, made from elastomeric foam, can pump fluid at a higher volume
Created by Mihri Ozkan, electrical engineering professor at UC Riverside Bourns College of Engineering, Cengiz Ozkan, her husband and fellow engineering professor, Daisy Patino,
Dr. Frank Liou and Dr. Jagannanthan Sarangapani, distinguished professors in Product Innovation and Creativity, and Electrical and Computer engineering, respectively, have been working towards using cyber additive manufacturing technology
The MIT professor and founder of the Mediated Matter design research group at MIT Media Lab has rightfully been enjoying a celebrity-like status in the 3d printing industry.
The next step for the professor was to introduce living matter. e live in a special time, alongside the latest advances in computational design, materials engineering, synthetic biology, and additive manufacturing
Imagining exactly how those microorganisms might aid us is a job for designers and artists such as Professor Oxman, with
ent beyond the boundaries of our existing technology, formulating a dedicated improved support structure to allow a smooth, effective process in support of Professor Oxman vision.
Experiments such as this and previous ones carried out by Professor Oxman which include the Gemini lounge chair
Two professors of nanoengineering from the University of California San diego are utilizing advanced 3d printing technology to produce icrofish fish-shaped microrobotic devices geared towards traveling
The leaders of this project, Professors Shoachen Chen and Joseph Wang, recognized that most microrobots that have already been produced are unable to perform more advanced tasks due to their simply-shaped designs and inorganic physical make-ups.
and mechanical engineering professor at the University of Minnesota, said of the study, his represents an important proof of concept of the 3d printing of custom nerve guides for the regeneration of complex nerve injuries.
The professor says, he exciting next step would be to implant these guides in humans rather than rats.
The material was produced by UC Riverside electrical engineering professor Mihri Ozkan along with the help of her husband/fellow engineering professor Cengiz Ozkan and a couple of former and current Ph d students.
The team calls this material ponge a reusable material derived from heated sucrose, which is a form of sugar has a highly porous structure that is simultaneously water-repellant and pollutant-absorbent.
This 2004 story from ABC-TV's Catalyst program looked at the research of Professor Veena Sahajwalla of the University of NSW
"says Professor Marc Tennant of the University of Western australia, who worked for 20 years in public health dentistry."
said Xiang Zhang, director of the Materials sciences Division of the US Department of energy's Lawrence Berkeley National Laboratory and a professor at the University of California, Berkeley."
"said study lead author Professor Xingjie Ni of Penn State university. The researchers said they overcame two drawbacks of previous experimental microscopic cloaks that were bulkier and harder to"scale up,
Professor of Ultrasonics at the University of Bristol, said while other groups had levitated successfully objects,
However, Professor Drinkwater and colleagues managed to move the tiny objects-less than one millimetre in size-using a single-sided array of loudspeakers.
Professor Drinkwater said. He said their new study built on the work of researchers at the University of Dundee.
Success lies in'brute-force inversion'Ironically, Professor Drinkwater said the team's success lay in the absence of a mathematician amongst them."
Professor Drinkwater said the successful sound wave configurations had interesting characteristics.""The successful ones were all either tweezer,
and other new potentials Professor Drinkwater said the importance of developing a single-sided device was expanded that it the potential of the technology
"Professor Drinkwater said the development could also lead to"non-contact production lines"for handling delicate or dangerous materials without contact.
professor of electrical engineering at the IISC and leader of the team that developed the new method. his pre-screening tool can detect glaucoma with 90 percent accuracy,
NTU Professor Joseph Chang, who is involved in the design and construction of the prototype, said,
Professor Leslie Yeo, Director of RMIT University Micronanophysics Research Laboratory, said the Respite technology had the potential to revolutionize how patients were treated with drugs
and led by Professor David Virshup from Duke-NUS and Professor Daniel Forger from Michigan, the findings shed light on how PER2 regulates our circadian clock.
and Project Professor Katsushi Fujii from The University of Tokyo and Associate professor Kensuke Nishioka from Miyazaki University have doubled now more than the solar conversion efficiency to 24.4 percent.
"Professor Molly Stevens, co-corresponding author from the Departments of Materials and of Bioengineering at Imperial College London, said:"
"says Dr. Zheng, Senior Scientist at the Princess Margaret and also Professor of Medical Biophysics at the University of Toronto.
Hariri research is supervised jointly by chemistry professors Gonzalo Cosa and Hanadi Sleiman, who co-authored the new study.
"Dr. Mindy George-Weinstein, Professor of Biomedical sciences at the Cooper Medical school of Rowan University, stated,"Myo/Nog cells have also been found in a variety of tumors,
professor emeritus of applied and engineering physics, where multiphoton microscopy for biological applications was pioneered. hese alumni embody the ebb Groupstyle of mixing physics,
Denk took the first two-photon microscopy images with the help of Frank Wise, the Samuel B. Eckert Professor of Engineering,
director and professor of applied and engineering physics. hey are examples for the next generation of students we are now training,
professor of neurobiology and behavior in the College of Arts and Sciences and senior associate vice provost for research. e know that the technological breakthroughs
Led by Rohit Bhargava, U. of I. professor of bioengineering and member of the Beckman Institute for Advanced Science and Technology,
and now is a professor at the University of Houston. ne of the bottlenecks in automated pathology is the extensive processing that must be applied to stained images to correct for staining artifacts and inconsistencies.
The biomolecule sorting technique was developed in the laboratory of Joanna Aizenberg, Amy Smith Berylson Professor of Materials science at Harvard School of engineering and Applied sciences (SEAS) and Professor in the Department of chemistry and Chemical Biology.
Aizenberg is also co-director of the Kavli Institute for Bionano Science and Technology and a core faculty member at Harvard Wyss Institute for Biologically Inspired Engineering, leading the Adaptive Materials Technologies platform there.
a physical process that results in colors,"says Dr. Junpeng Guo, professor of electrical engineering and optics,
Quantum chemical calculations carried out by Professor Max C. Holthausen's research group at Goethe University show that the substitution pattern that was observed experimentally indeed produces a pronounced stabilisation of the Si20 structure.
Philip Withers, Professor of Materials science and Director of the Manchester Henry Moseley X-ray Imaging Facility, says,
Pia Cosma, group leader and ICREA research professor at the CRG explains, e found that stem cells have a different chromatin structure than somatic (specialised) cells.
How Scientists Built the New Electrodeinspired by previous research on improving conductivity via doping different metal oxide materials, Singh and Kalyan Mandal, another researcher and a professor at the S n. Bose
Photo by Anurag Mathur, Healy Lab) Instead, the research team led by bioengineering professor Kevin Healy is presenting a network of pulsating cardiac muscle cells housed in an inch-long silicone device that effectively models human heart tissue,
. a Core Faculty member at the Wyss Institute for Biologically Inspired Engineering at Harvard university and the Amy Smith Berylson Professor of Materials science at Harvard School of engineering and Applied sciences (SEAS), has developed an entirely new,
Aizenberg, who is also Professor of Chemistry and Chemical Biology in Harvard's Faculty of arts and Sciences and Co-Director of the Kavli Institute for Bionano Science and Technology
who is also the Judah Folkman Professor of Vascular Biology at Harvard Medical school and Boston Children's Hospital and Professor of Bioengineering at Harvard SEAS."
said Tony Jun Huang, professor of engineering science and mechanics at Penn State and the inventor, with his group, of this and other acoustofluidic devices based on ultrasonic waves. or instance,
Besides Chen, the other cofounder is Richard Mathies, a UC Berkeley chemistry professor and world-renowned expert on Raman spectroscopy.
professor and chair of the Department of Biomedical engineering at Duke university, thought his team could do better.
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,
Trejo, who with Margaret Frey, professor of fiber science, authored the study, comparative study on electrosprayed, layer-by-layer,
Researchers in professor Margaret Frey lab create fibers hundreds of times thinner than a human hair that can capture toxic chemicals and pathogens.
He is a professor at Stanford School of medicine and SLAC and a Howard hughes medical institute investigator.""Both parts of this protein complex are said essential,
a professor at Yale university who discovered the SNARE proteins and shared the 2013 Nobel prize in Physiology or Medicine.
Thomas C. Südhof, a professor at the Stanford School of medicine and Howard hughes medical institute investigator who shared that 2013 Nobel prize with Rothman,
The study was led by Marija Drndic, a professor in the School of arts & Sciencesdepartment of Physics & Astronomy;
and Jeffery G. Saven, a professor in Penn Arts & Sciencesdepartment of Chemistry. It was published in the journal ACS Nano.
said Margaret Murnane, professor of Physics and Electrical and Computer engineering at the University of Colorado,
Mallinckrodt Professor of Physics and Applied Physics and an associate faculty member of the Wyss Institute for Biologically Inspired Engineering at Harvard, describes the research in a paper published today in Science. his is a surprisingly simple way to make amorphous nanoparticles from almost any material,
Christian Holtze, Chinedum O. Osuji, Michael P. Brenner, the Glover Professor of Applied mathematics and Applied Physics and Professor of Physics,
and Frans Spaepen, the John C. and Helen F. Franklin Professor of Applied Physics. It was supported by the National Science Foundation,
Peidong Yang, a professor of chemistry at Berkeley and co-director of the school's Kavli Energy Nanosciences Institute, leads a team that has created an artificial leaf that produces methane
Moore is a professor of chemistry and biochemistry at Arizona State university, where he previously headed the Center for Bioenergy & Photosynthesis. Ultimately,
or literally,"said Ted Sargent, the vice-dean of research for the Faculty of Applied science and Engineering at University of Toronto.
''said Martin Yarmush, the Paul and Mary Monroe Chair and Distinguished Professor of biomedical engineering at Rutgers and Ghodbane's adviser.
Zharov is director of the Arkansas Nanomedicine Center at the UAMS Winthrop P. Rockefeller Cancer Institute and a professor in the UAMS College of Medicine Department of Otolarynology-Head and Neck Surgery.
"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,
Professor Damien Walmsley, from the School of dentistry at the University of Birmingham explained,"The dentine of our teeth have numerous microscopic holes,
Professor Zoe Pikramenou, from the School of Chemistry at the University of Birmingham, said, "These silica particles are available in a range of sizes, from nanometre to sub-micron,
a University of Nebraska-Lincoln physics and astronomy professor who worked on the research. It also contradicts the expected behavior of ferroelectric materials,
a UCLA professor of physics and astronomy and a member of UCLA California Nanosystems Institute, is published Sept. 21 in the online edition of the journal Nature Materials.
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,
says Professor Bettina Lotsch of the Department of chemistry at LMU and the Max Planck Institute for Solid State Research in Stuttgart.
"says Nicholas Abbott, a UW-Madison professor of chemical and biological engineering.""It's quite a versatile approach."
and Juan J. de Pablo former engineering professor at UW-Madison, currently at the University of Chicago.
Groundbreaking approach to create nanomaterials The research group lead by Professor Mauri Kostiainen works extensively with DNA NANOSTRUCTURES,
"said senior author Holger Schmidt, the Kapany Professor of Optoelectronics at UC Santa cruz.""We're detecting the nucleic acids directly,
According to the lead researcher, Professor Trevor Lithgow, from the newly launched Biomedicine Discovery Institute (BDI) at Monash University in Melbourne, Australia,
Professor Lithgow and his team used a novel technology that enables the systematic expansion of the genetic codes of living organisms to include unnatural amino acids beyond the common twenty.
Professor Lithgow and lead researcher Dr. Takuya Shiota from the BDI focused on the TOM protein complex
According to Professor Lithgow TOM 40 has resisted all attempts, using x-ray crystallography and other standard techniques in structural biology to unlock its transport secrets.
Having shown the technology works-Professor Lithgow believes other labs working on diverse processes in human cell biology will mimic these experiments to determine how their chosen nanomachines operate.
The research is the culmination of more than 15 years work by Professor Lithgow, from the newly launched Biomedicine Discovery Institute (BDI) at Monash University.
According to Professor John Carroll, Director of the BDI, the research is a great example of the interdisciplinary approach that will be the hallmark of the Institute."
Now researchers led by Professor Heinrich Leonhardt at LMU's Biocenter and Professor Christian Hackenberger of the Leibniz Institute for Molecular Pharmacology in Berlin have developed a new strategy that permits specific chemical modification of virtually any protein more rapidly
and more efficiently than was hitherto possible. Their results appear in the new edition of the journal Angewandte Chemie.
a professor of circuits and systems and biomedical engineering expert who is the Director of Virtus, the Centre of Excellence in IC Design, at NTU's School of Electrical and Electronic engineering."
who is also a professor of radiology, neuroscience, pathology and laboratory medicine at Weill Cornell Medical College.
a Phd student who plans to become a professor, for supervising Meyer over two years of experiments that included the construction of scores of batteries from scratch
After hearing about SUNY Poly CNSE Professor and Head of the Nanobioscience Constellation Dr. Jim Castracane research related to novel sensors, the Jamboxx creators connected with Dr. Castracane who found that a Self
A young investigator group at Helmholtz-Zentrum Berlin, led by Professor Martina Schmid, is inquiring how to use arrangements of such nanoparticles to improve solar cells and other optoelectronic devices.
Dassarma, Phd, a professor of microbiology and immunology at the school,"GVNPS offer a designer platform for vaccines
One of Tkaczyk co-authors on the research was Rebecca Richards-Kortum, Rice Malcolm Gillis University Professor, director of the Institute of Biosciences and Bioengineering and of Rice 360°:
These studies were performed by an international group of collaborators led by Professor H.-S. Philip Wong and Pop.
#Prosthetic Hands with Macro-Sieve Peripheral Nerve Interface Can Feel Hot and Cold and Sense of touch Daniel Moran, Phd, professor of biomedical engineering in the School of engineering & Applied science and of neurobiology,
which includes Harold Burton, Phd, professor of neurobiology; Wilson (Zach) Ray, MD, assistant professor of neurological surgery, both at the School of medicine;
"said Wyss Core Faculty member George Church, Ph d, . who is a pioneer in the converging fields of synthetic biology, metabolic engineering, and genetics.
Church is the Robert Winthrop Professor of Genetics at Harvard Medical school and Professor of Health Sciences and Technology at Harvard and MIT.
who is also the Judah Folkman Professor of Vascular Biology at Harvard Medical school and Boston Children's Hospital,
and Professor of Bioengineering at the Harvard John A. Paulson School of engineering and Applied sciences s
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