Thinking smallvelásquez-García and his co-authors Philip Ponce de Leon, a former master student in mechanical engineering;
says Reza Ghodssi, a professor of electrical engineering at the University of Maryland. Relative to other approaches, he adds,
World's thinnest lightbulb developed Led by Young Duck Kim, a postdoctoral research scientist in James Hone's group at Columbia Engineering, a team of scientists from Columbia, Seoul National University (SNU),
Wang Fon-Jen Professor of Mechanical engineering at Columbia Engineering and co-author of the study.""This new type of'broadband'light emitter can be integrated into chips
Yun Daniel Park, professor in the Department of physics and Astronomy at Seoul National University and co-lead author,
a UCLA professor of chemistry and one of the senior authors of the research. lants do this through photosynthesis with extremely high efficiency. n photosynthesis,
a UCLA professor of chemistry and another senior co-author. his is the first time this has been shown using modern synthetic organic photovoltaic materials.
Yves Rubin, a UCLA professor of chemistry and another senior co-author of the study, led the team that created the uniquely designed molecules. e don have these materials in a real device yet;
a UCLA professor of chemistry and one of the senior authors of the research. lants do this through photosynthesis with extremely high efficiency. n photosynthesis,
a UCLA professor of chemistry and another senior co-author. his is the first time this has been shown using modern synthetic organic photovoltaic materials.
Yves Rubin, a UCLA professor of chemistry and another senior co-author of the study, led the team that created the uniquely designed molecules. e don have these materials in a real device yet;
Ahamad Abbas, graduate student; Han Wang, assistant professor; Rohan Dhall, graduate student; Stephen B. Cronin, associate professor; Mingyuan Ge, research assistant;
Xin Fang, graduate student; and Professor Chongwu Zhou of the Ming Hsieh Department of Electrical engineering, in concert with their collaborators, is documented in a paper titled lack Arsenic-Phosphorus:
Layered Anisotropic Infrared Semiconductors with Highly Tunable Compositions and Properties. The paper appeared in Advanced Materials on June 25, 2015.
What the researchers are excited most about is the ability to adjust the electronic and optical properties of these materials to a range that cannot be achieved by any other 2d materials thus far.
This includes manipulating the materialschemical compositions during materials synthesis and the materialsability to sense long wavelength infrared (LWIR) waves due to their small energy gaps.
This particular electromagnetic spectral range of LWIR is important for a range of applications such as LIDAR (light radar) systems
and durability,"said study coauthor Ralph Nuzzo of the University of Illinois at Urbana-Champaign."
but several different types of catalysts,"said coauthor and Yeshiva University scientist Anatoly Frenkel, who led the x-ray experiments."
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."It's important that we not only observed these wakes
professor at Chalmers University of Technology, were the first to show that graphene can have a cooling effect on silicon-based electronics.
"said Velev, INVISTA Professor of Chemical and Biomolecular engineering at NC State and the paper's corresponding author."
"said Velev, INVISTA Professor of Chemical and Biomolecular engineering at NC State and the paper's corresponding author."
and Katsumasa Fujita at Osaka University developed a way to image small, mobile bioactive molecules in living cells,
One of Sodeoka collaborators, Michio Murata at Osaka University, suggested applying the technique to lipid raftsmall domains in cell membranes that are rich in lipids such as cholesterol
Researchers at the Washington University School of medicine, St louis, and University of Illinois, Urbana-Champaign, created a remote controlled,
next-generation tissue implant that allows neuroscientists to inject drugs and shine lights on neurons deep inside the brains of mice.
"said Michael R. Bruchas, Ph d.,associate professor of anesthesiology and neurobiology at Washington University School of medicine and a senior author of the study.
To address these issues, 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, to construct a remote controlled, optofluidic implant.
"said John A. Rogers, Ph d.,professor of materials science and engineering, University of Illinois at Urbana-Champaign and a senior author."
who is now an assistant professor of electrical, computer, and energy engineering at University of Colorado Boulder."
"We tried to engineer the implant to meet some of neurosciences greatest unmet needs.""In the study, the scientists provide detailed instructions for manufacturing the implant."
Courtesy of Jeong lab, University of Colorado Boulder. Source: http://www. ninds. nih. gov
#Superfast fluorescence sets new speed record Researchers have developed an ultrafast light-emitting device that can flip on and off 90 billion times a second
an assistant professor of electrical and computer engineering and physics at Duke. e can now start to think about making fast-switching devices based on this research, so there a lot of excitement about this demonstration.
an assistant professor of electrical and computer engineering and physics at Duke. e can now start to think about making fast-switching devices based on this research,
A huge gain in this direction has now been made by a team of chemists at the University of California
explained Christopher Bardeen, a professor of chemistry. The research was a collaborative effort between him
an assistant professor of chemistry. his is lost energy, no matter how good your solar cell. The hybrid material we have come up with first captures two infrared photons that would normally pass right through a solar cell without being converted to electricity,
A huge gain in this direction has now been made by a team of chemists at the University of California
explained Christopher Bardeen, a professor of chemistry. The research was a collaborative effort between him
an assistant professor of chemistry. his is lost energy, no matter how good your solar cell. The hybrid material we have come up with first captures two infrared photons that would normally pass right through a solar cell without being converted to electricity,
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
who also spent extended time at Tsinghua University in China during several years of the research.
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.
who is now assistant professor at University of Yalova in Turkey. After exhaustive research, the group finally came up with a strategy to create the required shape first
But, before that happens, quantum physicists like the ones in UC Santa barbara's physics professor John Martinis'lab will have to create circuitry that takes advantage of the marvelous computing prowess promised by the quantum bit("qubit),
graduate student researcher and co-lead author of a research paper that was published in the journal Nature."
'805-893-4765copyright University of California-Santa Barbaraissuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.
2015the George washington University Opens Science and Engineering Hall, Largest Building of Its Kind in D c.:
2015announcements The George washington University Opens Science and Engineering Hall, Largest Building of Its Kind in D c.:
This benefits a large group of customers, such as universities, SMES, research institutes and systems integrators, that usually do not have access to the 3d modules at large foundries.
Circuits are fabricated for universities, research laboratories and industrial companies. Advanced industrial technologies are available in CMOS, Sige Bicmos, HV-CMOS, SOI, P-HEMT Gaas, MEMS, 3d-IC, etc.
CMP distributes and supports several CAD software tools for both industrial companies and universities. Since 1981, more than 1, 000 Institutions from 70 countries have been served, more than 6,
#XEI Scientific and University of Southern California announce a publication in Advanced Materials on the use of downstream plasma cleaning The research team of Associate professor Stephen Cronin is located in the Ming Hseih Department of Electrical engineering
Professor Cronin's research spans a broad range of topics including electrical and spectroscopic characterization of carbon nanotubes, graphene,
and many steps,"says Caltech physics professor Nai-Chang Yeh, the Fletcher Jones Foundation Co-Director of the Kavli Nanoscience Institute and the corresponding author of the new study."
at that time a Caltech professor of mechanical engineering and applied physics, was trying to reproduce a graphene-manufacturing process he had read about in a scientific journal.
"##Along with Yeh and Boyd, additional authors on the paper,"Single-Step Deposition Of high-Mobility Graphene at Reduced Temperatures,"include Caltech graduate students Wei Hsiang Lin, Chen Chih
and Chih-I Wu of National Taiwan University; and Wen-Yuan Chan, Wei-Bing Su,
2015research partnerships FEI Joins University of Ulm and CEOS on SALVE Project Research Collaboration: The Sub-ngstrm Low Voltage Electron (SALVE) microscope should improve contrast
Rice graduate student Ruquan Ye is lead author of the paper. Co-authors are Rice graduate students Zhiwei Peng
Andrew Metzger, Changsheng Xiang, Errol Samuel and Xiujun Fan; former Rice postdoctoral researcher Jason Mann;
alumnus Kewei Huang, now a postdoctoral researcher at Texas A&m University; senior research scientist Lawrence Alemany;
Rice alumnus Jian Lin, an assistant professor at the University of Missouri-Columbia; and Angel Mart, an assistant professor of chemistry and bioengineering and of materials science and nanoengineering at Rice.
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.
The Air force Office of Scientific research and the Robert A. Welch Foundation supported the research.#####About Rice Universitylocated on a 300-acre forested campus in Houston, Rice university is ranked consistently among the nation's top 20 universities by U s. News & World Report.
Rice has respected highly schools of Architecture, Business, Continuing Studies, Engineering, Humanities, Music, Natural sciences and Social sciences and is home to the Baker Institute for Public Policy.
With 3, 888 undergraduates and 2, 610 graduate students, Rice's undergraduate student-to-faculty ratio is 6-to-1. Its residential college system builds close-knit communities and lifelong friendships,
just one reason why Rice is ranked among some of the top schools for best quality of life by the Princeton Review and for best value among private universities by Kiplinger's Personal Finance.
Imaging JPK reports on the use of optical tweezers in the Schieber Research Group at Illinois Institute of technology March 18th, 2015fei Joins University of Ulm and CEOS on SALVE Project Research Collaboration:
2015quantum Dots/Rods Ghent University leads large-scale European training project on quantum dots March 13th, 2015optical nanoantennas set the stage for a NEMS lab-on-a-chip revolution February 24th, 2015qd Vision Named Edison Award Finalist for Innovative Color IQ Quantum dot Technology February 23rd,
Engineers at the University of California, Berkeley, are developing a new type of bandage that does far more than stanch the bleeding from a paper cut or scraped knee.
Associate professor Michel Maharbiz explains how the smart bandage works to detect bedsores. Video by Roxanne Makasdjian and Phil Ebiner"We set out to create a type of bandage that could detect bedsores as they are forming
"said Michel Maharbiz, a UC Berkeley associate professor of electrical engineering and computer sciences and head of the smart-bandage project."
"said Dr. Michael Harrison, a professor of surgery at UCSF and a co-investigator of the study."
"##Other lead researchers on the project include Vivek Subramanian and Ana Claudia Arias, both faculty members in UC Berkeley's Department of Electrical engineering and Computer sciences;
and Shuvo Roy, a UCSF professor of bioengineering. Additional co-authors include Amy Liao and Monica Lin, both UC Berkeley Ph d. students in bioengineering;
and Yasser Khan, a UC Berkeley Ph d. student in electrical engineering and computer sciences, who fabricated the sensor array.
Study co-author Dr. David Young, UCSF professor of surgery, is now heading up a clinical trial of this bandage.
The project is funded through the Flexible Resorbable Organic and Nanomaterial Therapeutic Systems (FRONTS) program of the National Science Foundation.##
'510-643-7741copyright#University of California, Berkeleyissuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.
Invista Professor of Chemical and Biomolecular engineering at NC State and the corresponding author of the paper describing the research,
and the university's TEC (The Entrepreneurship Collaborative) program to commercialize the discoveries. They worked with the experienced entrepreneur Miles Wright to start a company called Xanofi to advance the quest for nanofibers
niewski (IPC PAS), winner of the Iuventus Plus grant from the Polish Ministry of Science and Higher education, under which the study was carried Out to form the bond,
"explains Phd student Justyna Matyjewicz (IPC PAS). Using a flow of current has shortened significantly the reaction time of the nanoparticles bonding to the substrate."
Lead author Chad Ropp (now a postdoctoral fellow at the University of California, Berkeley) says that the main goal of the experiment was to produce better super-resolution imaging:"
Tel aviv University researcher discovers novel nanoscale'metamaterial'could serve as future ultra-high-speed computing units March 19th, 2015an improved method for coating gold nanorods March 19th,
2015fei Joins University of Ulm and CEOS on SALVE Project Research Collaboration: The Sub-ngstrm Low Voltage Electron (SALVE) microscope should improve contrast
Tel aviv University researcher discovers novel nanoscale'metamaterial'could serve as future ultra-high-speed computing units March 19th,
Tel aviv University researcher discovers novel nanoscale'metamaterial'could serve as future ultra-high-speed computing units March 19th, 2015an improved method for coating gold nanorods March 19th,
Tel aviv University researcher discovers novel nanoscale'metamaterial'could serve as future ultra-high-speed computing units March 19th, 2015an improved method for coating gold nanorods March 19th,
2015tools XEI Scientific and University of Southern California announce a publication in Advanced Materials on the use of downstream plasma cleaning March 18th,
A Northwestern University-led study in the emerging field of nanocytology could one day help men make better decisions about
Technology developed by Northwestern University researchers may help solve that quandary by allowing physicians to identify which nascent cancers are likely to escalate into potentially life-threatening malignancies and
"Backman is a professor of biomedical engineering at Northwestern's Mccormick School of engineering and Applied science. The study,
Northshore University Healthsystem (Northshore) and Boston Medical center, was published online in PLOS ONE. Backman has been studying cell abnormalities at the nanoscale in many different types of cancers,
Dr. Hemant K. Roy professor of medicine and Chief of gastroenterology at Boston Medical center and an author of the study."
Charles B. Brendler, Karen L. Kaul, Brian T. Helfand, Chi-Hsiung Wang, Margo Quinn, Jacqueline Petkewicz and Michael Paterakos, of Northshore University Healthsystem;
and Hariharan Subramanian, Di Zhang, Charles Maneval, John Chandler, Leah Bowen and Vadim Backman, of Northwestern University.##
along with colleagues at Aix-Marseille University in France, have discovered a high performance cathode material with great promise for use in next generation lithium-sulfur batteries that could one day be used to power
Distinguished University and Trustee Chair professor in the College of Engineering and director of its Nanomaterials Research Group, has created a two-dimensional carbon/sulfur nanolaminate that could be a viable candidate for use as a lithium-sulfur
along with his colleagues at Aix-Marseille University explain their process for extracting the nanolaminate from a three-dimensional material called a Ti2sc MAX phase.
Distinguished professor in Drexel's Department of Materials science & Engineering, has been used as the basis for much of Drexel's materials research intended to find better materials for batteries.
together with Professor Junichi Takeya of the University of Tokyo's Graduate school of Frontier Sciences, has achieved the world's first success in the development of technology for the simultaneous formation of contact electrodes for p-type and n-type*1
coating-type organic semiconductors developed by Professor Takeya which can be formed atmospherically. This result enables the atmospheric formation of organic electronic devices with high-speed drives
to be held between March 11 and March 14 at Tokai University, Shonan Campus (Hiratsuka-shi, Kanagawa). Background to this technology OFET is a transistor that uses an organic semiconductor,
The pioneering findings of Professor Takeya's research group make possible the atmospheric formation of high-mobility organic semiconductors,
in September 2014, EEJA together with Professor Takeya's research group jointly developed plating-process contact electrode formation technology for p-type organic semiconductors.
Also, Professor Takeya's research group developed a coating-type organic semiconductor that could be formed in a short time in the atmosphere with a large-surface thin film with uniform crystal orientation
#Nanotechnology Raises Possibility to Produce Strongest Commercial Pure Aluminum Alloy Iranian researchers from Amirkabir University of Technology in association with Spanish researchers presented a new process to obtain highly strong
The Columbia team, led by Electrical engineering Associate professor Harish Krishnaswamy, is the first to demonstrate an IC that can accomplish this.
"explains Jin Zhou, Krishnaswamy's Phd student and the paper's lead author.""Transmitter echo or'self-interference'cancellation has been a fundamental challenge,
"We are working closely with Electrical engineering Associate professor Gil Zussman's group, who are network theory experts here at Columbia Engineering,
engineers from the University of California at Berkeley have created an incredibly thin, chameleon-like material that can be made to change color--on demand--by simply applying a minute amount of force.
students and entrepreneurs who fuel discoveries, shape real-life applications and accelerate achievements in the science of light.
and is overseen by Editor-In-chief Alex Gaeta of Cornell University. For more information, visit optica. osa. org.
University of Akron polymer scientist finds that certain amino acids and sugars were meant simply to be in life March 11th,
Study sheds light on why foreign STEM students stay in US or return home March 11th, 2015announcements Super-resolution microscopes reveal the link between genome packaging and cell pluripotency:
group leader and ICREA research professor at the CRG explains, "We found that stem cells have a different chromatin structure than somatic (specialised) cells.
The scientists--from the Universit Cattolica del Sacro Cuore, the University of British columbia (UBC) and other institutions--liken the new technique to the development of high-speed film capture in the early days of photography."
and an international visiting research scholar at the UBC Peter Wall Institute for Advanced Studies, who coordinated the research.
and first-principles theory,"says professor Andrea Damascelli, director of UBC's Quantum Matter Institute (QMI) and senior fellow with the Canadian Institute for Advanced Research Quantum Materials Program.
Damascelli and Giannetti have been awarded a Peter Wall Institute International Scholarship aimed at reinforcing their collaboration
'604-822-5082copyright#University of British Columbiaissuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.
Researchers from Cornell University have synthesized a new thin-film catalyst for use in fuel cells. In a paper published March 10 in the journal APL Materials, from AIP Publishing, the team reports the first-ever epitaxial thin-film growth of Bi2pt2o7 pyrochlore,
How Scientists Built the New Electrode Inspired 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
. professor of surgery (biomedical engineering) at the Massachusetts General Hospital (MGH) and the Harvard-MIT Division of Health & Sciences Technology, report the development of a novel microfluidic chip that is specifically designed for the efficient capture of CTC clusters
Electrical and computer engineering associate professor Rajesh Menon and colleagues describe their invention today in the journal Nature Photonics.
A team of oncologists and engineers from the University of Michigan teamed up to help understand this crucial question.
"says study co-lead author Steven G. Allen, an M d.-Ph d. student in the University of Michigan Medical school's Medical scientist Training program.
"says study co-lead author Yu-Chih Chen, a postdoctoral researcher in Electrical engineering and Computer science at the University of Michigan College of Engineering.
"says co-senior study author Sofia D. Merajver, M d.,Ph d.,scientific director of the breast oncology program at the University of Michigan Comprehensive Cancer Center.
and biology,"says study co-senior author Euisik Yoon, Ph d.,professor of electrical engineering and computer science and of biomedical engineering and director of the Lurie Nanofabrication Facility at the U-M College of Engineering."
Now a team of Northwestern University researchers has found a way to print three-dimensional structures with graphene nanoflakes.
assistant professor of materials science and engineering at Northwestern's Mccormick School of engineering and of surgery in the Feinberg School of medicine,
Mark Hersam, the Bette and Neison Harris Chair in Teaching Excellence, professor of materials science and engineering at Mccormick, served as coauthor.
and her graduate student Alexandra Rutz completed earlier in the year to develop more cell-compatible, water-based, printable gels.
Stoddart is the Board of trustees Professor of Chemistry in Northwestern's Weinberg College of Arts and Sciences."
Chuyang Cheng, a fourth-year graduate student in Stoddart's laboratory and first author of the paper, has spent his Ph d. studies researching molecules that mimic nature's biochemical machinery.
Researchers at the University of Georgia have developed an inexpensive way to manufacture extraordinarily thin polymer strings commonly known as nanofibers.
study co-author and the Georgia Power Professor of Polymers, Fibers and Textiles in UGA's College of Family and Consumer Sciences."
Equipment operators must have extensive training to use the equipment safely.""In contrast to other nanofiber spinning devices, most of the equipment used in our device is very simple,
"##The University of Georgia Research Foundation Inc. has filed a patent application on this new method.#####For more information, please click herecontacts:
'706-542-3122copyright University of Georgia Issuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.
Columbia Engineering researchers first to create a single-molecule diode--the ultimate in miniaturization for electronic devices--with potential for real-world applications Under the direction of Latha Venkataraman, associate professor of applied physics at Columbia Engineering,
a Phd student working with Venkataraman and lead author of the paper.""A well-designed diode should only allow current to flow in one direction--the'on'direction
Venkataraman and her colleagues--Chemistry Assistant professor Luis Campos'group at Columbia and Jeffrey Neaton's group at the Molecular Foundry at UC Berkeley--focused on developing an asymmetry in the environment around the molecular junction.
According to Professor Hideyuki Murata of the Japan Advanced Institute of Science and Technology who participated in the research,
The work was done in collaboration with the Japan Advanced Institute of Science and Technology, Hiroshima University,
said Nicholas Hud, a professor in Georgia Tech School of Chemistry and Biochemistry. ith this work,
professor of neurosurgery and biomedical sciences at Cedars-Sinai and a lead author of an article published online in the American Chemical Society's journal ACS Nano.
"said Eggehard Holler, Phd, professor of neurosurgery and director of nanodrug synthesis at Cedars-Sinai.
and the Samuel Oschin Comprehensive Cancer Institute contributed to the study with colleagues from the University of Southern California and Arrogene Inc,
KTH Professor Lars Wågberg also has been involved, and his work on aerogels is in the basis for the invention of soft electronics.
Another partner is leading battery researcher, Professor Yi Cui from Stanford university t
#Researchers synthesize magnetic nanoparticles that could offer alternative to Rare earth magnets Abstract: A team of scientists at Virginia Commonwealth University has synthesized a powerful new magnetic material that could reduce the dependence of the United states
and other nations on rare earth elements produced by China.""The discovery opens the pathway to systematically improving the new material to outperform the current permanent magnets,
"said Shiv Khanna, Ph d.,a commonwealth professor in the Department of physics in the College of Humanities and Sciences.
a former postdoctoral associate in the Department of chemistry in the College of Humanities and Sciences and a co-author of the paper.
Everett Carpenter, Ph d.,a professor in the Department of chemistry and director of the VCU's Nanoscience and Nanotechnology Program, said the new material is"already showing promise, even for applications beyond permanent magnets
A route to developing ultimate superconducting nanodevices A research group at Tohoku University has succeeded in fabricating an atomically thin,
The research team at Tohoku University turned its attention to iron selenide (Fese), which is a member of iron-based superconductors*2
This work was supported by grants from the Japan Society for the Promotion of Science (JSPS) and Japan's Ministry of Education
and Fan Wu, both affiliated with PLA University of Science and Technology, worked with colleagues at Nanjing University of Science
Students and faculty at Vanderbilt University fabricated these tiny Archimedes'spirals and then used ultrafast lasers at Vanderbilt and the Pacific Northwest National Laboratory in Richland,
the Vanderbilt doctoral student who figured out how to study their optical behavior. The spirals were designed
and made at Vanderbilt by another doctoral student, Jed Ziegler, now at the Naval Research Laboratory.
"said Stevenson Professor of Physics Richard Haglund, who directed the research.""If you bow a violin string very lightly it produces a single tone.
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