X-Message-Number: 27129
From: "Gina Miller" <>
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Subject: The Nanogirl News~
Date: Sat, 24 Sep 2005 23:50:11 -0700

The Nanogirl News
September 24, 2005


Physicists Measure Tiny Force That Limits How Far Machines Can Shrink. 
University of Arizona physicists have directly measured how close speeding atoms
can come to a surface before the atoms' wavelengths change. Theirs is a first, 
fundamental measurement that confirms the idea that the wave of a fast-moving 
atom shortens and lengthens depending on its distance from a surface, an idea 
first proposed by pioneering quantum physicists in the late 1920s. (Daily 
Science News 9/23/05)
http://www.sciencenewsdaily.org/story-6724.html


Nanowires can detect molecular signs of cancer, scientists find. Harvard 
University researchers have found that molecular markers indicating the presence
of cancer in the body are readily detected in blood scanned by special arrays 
of silicon nanowires - even when these cancer markers constitute only one 
hundred-billionth of the protein present in a drop of blood. In addition to this
exceptional accuracy and sensitivity, the minuscule devices also promise to 
pinpoint the exact type of cancer present with a speed not currently available 
to clinicians. (Eurekalert 9/23/05)
http://www.eurekalert.org/pub_releases/2005-09/hu-ncd092305.php


Molecular Needles: Carbon nanotubes inject antimycotics into cells and increase 
their effectiveness. Putting pharmaceutical agents into the body isn't hard, but
getting them into targeted areas can be problematic. If drugs aren't taken up 
by a large enough proportion of cells, a suitable "transport agent" must be 
used. A French and Italian research team has successfully used carbon nanotubes 
as transport agents for antimycotics (antifungal agents). In addition, they have
developed a strategy for attaching a second agent or marker to the nanotubes in
a controlled fashion. (Chemie.De 9/21/05) http://www.chemie.de/news/e/49045/
 

Quantum-dot syntheses developed. UB scientists report new processes have 
applications in bioimaging and solar conversion. Efficient and highly scalable 
new chemical synthesis methods developed at UB's Institute for Lasers, Photonics
and Biophotonics have the potential to revolutionize the production of quantum 
dots for bioimaging and photovoltaic applications. 

(UB Reporter 9/22/05) 
http://www.buffalo.edu/reporter/vol37/vol37n4/articles/QuantumDots.html


Like fireflies and pendulum clocks, nano-oscillators synchronize their behavior.
Like the flashing of fireflies and ticking of pendulum clocks, the signals 
emitted by multiple nanoscale oscillators can naturally synchronize under 
certain conditions, greatly amplifying their output power and stabilizing their 
signal pattern, according to scientists at the Commerce Department's National 
Institute of Standards and Technology (NIST). (Physorg 9/14/05) 
http://www.physorg.com/news6484.html


Nanodiamonds prove magnetic. Researchers at Rensselaer Polytechnic Institute, 
SUNY Albany, NASA Ames Research Center and Philip Morris, all in the US, have 
created magnetic nanodiamonds by bombarding the particles with carbon or 
nitrogen ions. The nanodiamonds became ferromagnetic at room temperature. "These
findings could lead to a systematic, controllable method for producing magnetic
carbon materials," said Pulickel Ajayan of Rensselaer. "Though the value of the
magnetization is much lower than in regular magnets, the nature of the spin 
interactions in carbon could lead to a number of potential applications." 
(nanotechweb 9/15/05) http://nanotechweb.org/articles/news/4/9/9/1


Purdue scientists treat cancer with RNA nanotechnology. Using strands of genetic
material, Purdue University scientists have constructed tiny delivery vehicles 
that can carry anticancer therapeutic agents directly to infected cells, 
offering a potential wealth of new treatments for chronic diseases. The vehicles
look nothing like delivery trucks, though that is their function once inside 
the body. Instead, these so-called nanoparticles, which are assembled from three
short pieces of ribonucleic acid, resemble miniature triangles. The microscopic
particles possess both the right size to gain entry into cells and also the 
right structure to carry other therapeutic strands of RNA inside with them, 
where they are able to halt viral growth or cancer's progress. The team has 
already tested the nanoparticles successfully against cancer growth in mice and 
lab-grown human cells. (Ascribe 9/13/05) 
http://www.ascribe.org/cgi-bin/behold.pl?ascribeid=20050913.144406&time=21%2005%20PDT&year=2005&public=1


Tiny Twister. Trucks drive over the Golden Gate Bridge with little effect, but a
proposed nanoscale bridge would shudder even from the flow of electrons. The 
device, described theoretically in the 2 September PRL, would detect the 
electrons' spins by measuring the bridge's tilt as the electrons traverse it. 
Running it backward by forcing the bridge to tilt could generate a current of 
electrons with aligned spins. The device could be an essential component in the 
emerging field of spintronics--electronics that manipulate electron spins in 
addition to charges--which may someday transform information technology and 
computing. 
(Phys. Rev. 9/19/05) http://focus.aps.org/story/v16/st9


Bamboo-Shaped Nanowires. There has been a growing interest in the synthesis of 
bamboo-shaped carbon, BN, CN, and MoS2 nanotubes based on their applications as 
both structural and functional materials. Bamboo-shaped Ag-doped TiO2 nanowires 
with heterojunctions were synthesized by a simple solvothermal method and the 
detailed structure of the heterojunction in the nanowire is characterized. 
(Chemistry.org Sept. 2005) 
http://pubs3.acs.org/acs/journals/doilookup?in_doi=10.1021/ic0505551


Nanotechnology Innovation Enables Recovery and Reuse of Spilled Oil. Interface 
Sciences Corporation announced that in response to oil spill problems stemming 
from the current Hurricane Katrina disaster and oil crises, the company is 
launching its proprietary oil remediation and recovery application. Interface 
Sciences treated material absorbs about 40 times it weight in oil, far exceeding
existing commercially available remediation materials. (Nanotech cafe 9/7/05)


http://www10.nanotechcafe.com/nbc/articles/view_article.php?section=CorpNews&articleid=204185


Nanotechnology facilities, enhanced by thousand-year-old decorative style, near 
completion. A two-story-high, 450-foot-long wall surface with rock chipped flat 
- reminiscent of the thousand-year-old stonework at New Mexico's Chaco Canyon 
archaeological site - cuts across the three laboratory wings of the new core 
facility of the Center for Integrated Nanotechnologies.

The wall's function is not structural but meant to serve as an advertisement 
rooted in New Mexico's history.(Sandia 9/15/05) 


http://www.sandia.gov/news-center/news-releases/2005/micro-nano/cint-facilities.html


Nano World: Nano for artificial kidneys. Nanotechnological filters could lead to
wearable or implantable artificial kidneys, experts told UPI's Nano World. 
Animal studies for artificial-kidney prototypes should begin one or two years 
from now, and clinical trials would follow a year or two afterward, reported 
scientists at Biophiltre in Burlingame, Calif., the medical-device company 
developing the artificial-kidney technology. (Medlineplus 9/8/05) 
http://www.nlm.nih.gov/medlineplus/news/fullstory_26808.html


Researchers Awarded NSF Grant to Study Nano Springs, Rods, Beams. Researchers at
Rensselaer Polytechnic Institute are exploring the potential of nanomechanical 
systems by making and testing springs, rods, and beams on the nanoscale. They 
have been awarded a $1.15 million grant from the National Science Foundation for
the research. The past decade has seen an explosion of interest in electronic 
devices at the molecular level, but less attention has been paid to nanoscale 
mechanical systems, according to Toh-Ming Lu, the R.P. Baker Distinguished 
Professor of Physics at Rensselaer and principal investigator for the project. 
"Nanomechanical devices may have as important an impact as nanoelectronics, but 
a number of challenges need to be overcome before these systems can be 
practically realized," (newswise 9/15/05) 
http://www.newswise.com/articles/view/514562/


Nanohelix Structure Provides New Building Block For Nanoscale Piezoelectric 
Devices. A previously-unknown zinc oxide nanostructure that resembles the 
helical configuration of DNA could provide engineers with a new building block 
for creating nanometer-scale sensors, transducers, resonators and other devices 
that rely on electromechanical coupling. Based on a superlattice composed of 
alternating single-crystal "stripes" just a few nanometers wide, the "nanohelix"
structure is part of a family of nanobelts -- tiny ribbon-like structures with 
semiconducting and piezoelectric properties -- that were first reported in 2001.
The nanohelices, which get their shape from twisting forces created by a small 
mismatch between the stripes, are produced using a vapor-solid growth process at
high temperature. Information about the growth and analysis of the new 
structures will be reported in the September 9 issue of the journal Science. 
(ScienceDaily 9/13/05) 
http://www.sciencedaily.com/releases/2005/09/050911104847.htm


Researchers Create DNA-Based Sensors for Nano-Tongues and Nano-Noses. Nano-sized
carbon tubes coated with strands of DNA can create tiny sensors with abilities 
to detect odors and tastes, according to researchers at the University of 
Pennsylvania and Monell Chemical Sciences Center. Their findings are published 
in the current issue of the journal Nano Letters, a publication of the American 
Chemical Society. According to the researchers, arrays of these nanosensors 
could detect molecules on the order of one part per million, akin to finding a 
one-second play amid 278 hours of baseball footage or a single person in Times 
Square on New Years' Eve. In the report, the researchers tested the nanosensors 
on five different chemical odorants, including methanol and dinitrotoluene, or 
DNT, a common chemical that is also frequently a component of military-grade 
explosives. The nanosensors could sniff molecules out of the air or taste them 
in a liquid, suggesting applications ranging from domestic security to medical 
detectors.(nanotechwire 9/21/05) 
http://nanotechwire.com/news.asp?nid=2330&ntid=&pg=1


Nanotechnology Confronts the Bad Hair Day. Ohio State University researchers 
have just completed the first comprehensive study of human hair on the nanometer
level. Special equipment enabled Bharat Bhushan, Ohio Eminent Scholar and the 
Howard D. Winbigler Professor of mechanical engineering at Ohio State, and his 
colleagues to get an unprecedented close-up look at a rogue's gallery of bad 
hair days - from chemically overprocessed locks to curls kinked up by humidity.

They used the techniques they developed to test a new high-tech hair 
conditioner. Ultimately, the same techniques could be used to improve lipstick, 
nail polish and other beauty products, said Bhushan. His specialty is 
nanotribology - the measurement of very small things, such as the friction 
between moving parts in microelectronics. (SAWF 9/8/05)
http://news.sawf.org/Health/2608.aspx

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