Posts tagged experiments
University of Colorado Boulder From the Chancellor
Oct 21st
Philip P. DiStefano
We were excited to learn Sept. 30 that the prestigious National Solar Observatory has chosen the University of Colorado Boulder for its headquarters. CU-Boulder’s East Campus will be the primary site for scientific research on solar physics and space weather, which can have a significant impact on global communications and power grids.
This will enhance our longtime research partnerships with several federal labs, create exceptional educational opportunities for both graduate and undergraduate students and produce more than 70 high-paying jobs in our community with an annual payroll of $20 million. It will further position CU-Boulder as a center of innovation in solar research and is another example of how our entrepreneurial spirit will benefit Colorado’s economy.Our ability to win the National Solar Observatory came about because of a terrific joint effort led by Professor Dan Baker, director of our Laboratory for Atmospheric and Space Physics, coordinating the university, the city of Boulder, the business community and Colorado’s political leadership. Senators Michael Bennet and Mark Udall, Congressmen Jared Polis and Ed Perlmutter, our federal lab partners and Governor John Hickenlooper were all closely involved. Collaboration with these important partners put us in position to win the NSO.Boulder Daily Camera, Sept. 30: “CU-Boulder tops Alabama to land National Solar Observatory headquarters”In another instance of how we help build Colorado’s economy, Long Island-based Arrow Electronics announced its relocation to Colorado this week. Arrow CEO Michael Long said that a highly educated workforce—including access to CU-Boulder’s engineering programs—rivals Colorado tax incentives as an inducement to relocate. Arrow plans to create 1,200 additional Colorado jobs in five years and we look forward to partnering with this dynamic company.
CBS4 News: Oct. 12: “Arrow Electronics’ Move Is A Bet On Colorado: What’s Behind The Move Of Arrow Electronics?”State of the CampusThe relocation of Arrow Electronics is a good example of how we can help lead the state to prosperity, a subject I focused on in my annual State of the Campus address last week. In the speech I detailed how the state’s flagship university, despite having very little financial support from the state, can and must help Colorado move forward in these challenging economic times. We prepare students for highly skilled jobs in the 21st century global workplace, contribute billions annually to Colorado’s economy, and our research innovations create and attract companies. Technology transfer is just one of many ways we move the state ahead economically. Here’s an example of how our research innovations improve lives, while creating companies, through technology transfer.CU News Services, Sept. 19: “Suvica Inc. of Boulder to commercialize CU-Boulder cancer screening technology”Center of EntrepreneurshipCU-Boulder continues to be a center of entrepreneurship inspired by both our faculty and students. We were pleased our students’ entrepreneurial activities were detailed in this Boulder Daily Camera story.We have many resources to support and help our entrepreneurial students. One of those is a cross-campus Certificate in Entrepreneurshipdeveloped for students of all majors—from engineering to theater—offered through the Deming Center for Entrepreneurship in the Leeds School of Business. The Deming Center also gives students a host of entrepreneurial opportunities in a number of transformational industry sectors such as bioscience, clean energy and organic business. We have entrepreneurial programs and certificates in specific schools, colleges and Residential Academic Programs (RAPS) such as engineering, music and our sustainable design RAP.It’s also notable that the Department of Energy last week awarded the CU Cleantech Program at the Deming Center a grant to host a regional competition for students working on renewable energy start-up companies. Students from 10 states will submit clean-technology business plans to compete for $100,000. The university and the Deming Center are leaders in commercializing renewable energy.Boulder County Business Report, Oct. 11: “CU to host clean-tech competition”Here are just a handful of entrepreneurial projects our students are working on:Boulder County Business Report, Sept. 28: “New app inspired by Fourmile Fire”Boulder Daily Camera, Sept. 16: “Sounds of fun: CU-Boulder students engineer toys for the blind” Boulder Daily Camera, Sept. 24: “CU-Boulder students to get involved with solar-powered Wi-Fi project in Haiti” 
CU-Boulder will prepare space experiments designed by students 14 to 18 in an international contest sponsored in part by YouTube.
Supporting our communities
While we build and attract companies to support our economy, we also improve communities across Colorado. On that note, I’m pleased to report that CU-Boulder’s Center for the Study and Prevention of Violence was awarded a $6.5 million grant by the Centers for Disease Control to reduce violence in Denver’s 30,000-resident Montbello neighborhood.
Building community also includes educational outreach. A CU-Boulder space center will play a key role in a new international contest sponsored by industry partners, including YouTube, and several space agencies, challenging students 14 to 18 to design science experiments. The winning experiments will be conducted on the International Space Station. Our BioServe Space Technologies, headquartered in the Aerospace Engineering Sciences Department, will turn the winning proposals into space-ready experiments.
Alysia Marino
Physics professor honored by the White House
It was a pleasure to honor faculty promotions, awards and elections to distinguished national academies at Faculty Convocation on Sept. 30 in an ceremony that also recognized top students. I’m compelled to make special mention of Physics Assistant Professor Alysia Marino, who was honored on Friday at the White House by President Obama as one of 13 Department of Energy researchers to receive prestigious Early Career Scientist Awards.
I’m proud to say that she also was recognized for mentoring graduate students. She joined colleagues at the White House from the likes of Cal-Berkeley, Cornell and the California Institute of Technology.
Matt Stone, left, and Trey Parker as young screenwriters in Hollywood.
CU alums on 60 Minutes
Our incorrigible and idiosyncratic alums, Matt Stone and Trey Parker ofSouth Park fame, were featured on 60 Minutes last month in a segment highlighting their film and Broadway creativity and documenting their CU beginnings. The inseparable pair met in a film studies class in which Professor Don Yannacito told them if they ever got serious they might go somewhere. Needless to say, they never got serious.
Macky Auditorium symbolizes CU’s contribution to community and culture. (Video by Boulder Daily Camera.)Macky Auditorium celebratedAn iPad loaded with contemporary digital content was part of a time capsule buried at Macky Auditorium last week to replace one opened a year ago on Macky’s 100th birthday. Macky has been a community cultural hub on campus for a century. Today, more than 385,000 citizens a year enhance their quality of life by visiting CU-Boulder’s museums, performing and visual arts, debates and other cultural events. 
CU-Boulder was awarded the National Solar Observatory on Sept. 30. (Photo courtesy of NASA.)
Chancellor Philip DiStefano delivers the 2011 State of the Campus address in the Glenn Miller Ballroom.
Daniel Schaefer, a CU-Boulder doctoral candidate in communication, holds up his Android smart phone with a special keyboard app that he created for easier Twitter posting during disasters.
The Golden Buffalo Marching Band practices on Farrand Field. The band will be featured in Homecoming festivities Friday and Saturday.
Join us for Homecoming this weekend
Unlike many schools, we never take our Homecoming opponent for granted. We can’t because typically they are Top-10 ranked, and this year is no exception as we host No. 9 Oregon for Homecoming on Saturday.Highlights include the Homecoming Parade and Buff Stampede on the Pearl Street Mall at 7 p.m. Friday and the game at 1:30 p.m. Saturday.
To prepare for the big events and make parking smoother, visit the following websites:
• Boulder Pearl Street Mall Parking • Campus Game Day Parking
I’ll see you there! Go Buffs!
Sincerely,
Philip P. DiStefano, Chancellor University of Colorado Boulder
UNEXPECTED ADHESION PROPERTIES OF GRAPHENE MAY LEAD TO NEW NANOTECHNOLOGY DEVICES
Aug 23rd
Graphene, considered the most exciting new material under study in the world of nanotechnology, just got even more interesting, according to a new study by a group of researchers at the University of Colorado Boulder.
The new findings — that graphene has surprisingly powerful adhesion qualities — are expected to help guide the development of graphene manufacturing and of graphene-based mechanical devices such as resonators and gas separation membranes, according to the CU-Boulder team. The experimentsshowed that the extreme flexibility of graphene allows it to conform to the topography of even the smoothest substrates.
Graphene consists of a single layer of carbon atoms chemically bonded in a hexagonal chicken wire lattice. Its unique atomic structure could some day replace silicon as the basis of electronic devices and integrated circuits because of its remarkable electrical, mechanical and thermal properties, said Assistant Professor Scott Bunch of the CU-Boulder mechanical engineering department and lead study author.
A paper on the subject was published online in the Aug. 14 issue of Nature Nanotechnology. Co-authors on the study included CU-Boulder graduate students Steven Koenig and NarasimhaBoddeti and Professor Martin Dunn of the mechanical engineering department.
“The real excitement for me is the possibility of creating new applications that exploit the remarkable flexibility and adhesive characteristics of graphene and devising unique experiments that can teach us more about the nanoscale properties of this amazing material,” Bunch said.
Not only does graphene have the highest electrical and thermal conductivity among all materials known, but this “wonder material” has been shown to be the thinnest, stiffest and strongest material in the world, as well as being impermeable to all standard gases. It’s newly discovered adhesion properties can now be added to the list of the material’s seemingly contradictory qualities, said Bunch.
The CU-Boulder team measured the adhesion energy of graphene sheets, ranging from one to five atomic layers, with a glass substrate, using a pressurized “blister test” to quantify the adhesion between graphene and glass plates.
Adhesion energy describes how “sticky” two things are when placed together. Scotch tape is one example of a material with high adhesion; the gecko lizard, which seemingly defies gravity by scaling up vertical walls using adhesion between its feet and the wall, is another. Adhesion also canplay a detrimental role, as in suspended micromechanical structures where adhesion can cause device failure or prolong the development of a technology, said Bunch.
The CU research, the first direct experimental measurements of the adhesion of graphene nanostructures, showed that so-called “van der Waals forces” — the sum of the attractive or repulsive forces between molecules — clamp the graphene samples to the substrates and also hold together the individual graphene sheets in multilayer samples.
The researchers found the adhesion energies between graphene and the glass substrate were several orders of magnitude larger than adhesion energies in typical micromechanical structures, an interaction they described as more liquid-like than solid-like, said Bunch.
The CU-Boulder study was funded primarily by the National Science Foundation and the Defense Advanced Research Projects Agency.
The importance of graphene in the scientific world was illustrated by the 2010 Nobel Prize in physics that honored two scientists at Manchester University in England, Andre K. Geim and Konstantin Novoselov, for producing, isolating, identifying and characterizing graphene.
There is interest in exploiting graphene’s incredible mechanical properties to create ultrathin membranes for energy-efficient separations such as those needed for natural gas processing or water purification, while graphene’s superior electrical properties promise to revolutionize the microelectronics industry, said Bunch.
In all of these applications, including any large-scale graphene manufacturing, the interaction that graphene has with a surface is of critical importance and a scientific understanding will help push the technology forward, he said.
CU Boulder FACULTY LEAD $7 MILLION INITIATIVE AIMED AT MILITARY VEHICLE SAFETY
Aug 11th
Aug. 11, 2011
University of Colorado Boulder engineering faculty are leading a $7.2 million multidisciplinary research initiative on soil blast modeling and simulation for the U.S. Department of Defense.
The research, which starts this month, is aimed at creating a more accurate representation of the impact of buried landmines and improvised explosive devices, or IEDs, on light-armored military vehicles so that the vehicles can be better designed to withstand such blasts.
The award is administered by the Office of Naval Research as part of the defense department’s competitive Multi-University Research Initiative or MURI program, which supports basic science and engineering research at U.S.universities related to long-term national security needs.
MURI awards are provided to accelerate progress in cutting-edge research areas by supporting multidisciplinary teams with larger and longer awards than other DOD research programs.
The grant will provide $4.2 million to CU-Boulder and $3 million to co-investigators at four other institutions. The other schools involved are the University of California, Berkeley; University of Texas at Dallas; University of Tennessee Knoxville; and the University of Utah.
Richard Regueiro, assistant professor in CU-Boulder’s Department of Civil, Environmental and Architectural Engineering, is the principal investigator. CU-Boulder professors Ronald Pak, John McCartney and Stein Sture of civil engineering, and Oleg Vasilyev of mechanical engineering, also areinvolved.
The research initiative will involve experiments using CU-Boulder’s large 400-g ton geotechnical centrifuge coupled with computational modeling. The objective is to develop and validate a model that accurately represents explosive blasts of varying charges, depths and soil types.
CU-Boulder’s proposal was one of 27 MURI awards made to academic institutions in different topical areas in 2011. The proposals, which are being funded with a total of $191 million over five years, were selected from a field of 332 proposals, including 17 on the topic of soil blast modeling and simulation.
