The Nanogirl News~

X-Message-Number: 29516
From: "Gina Miller" <>
References: <>
Subject: The Nanogirl News~
Date: Sat, 19 May 2007 17:45:57 -0700


Nanogirl News - brought to you by Nanotechnology Industries 
www.nanoindustries.com/
Issue May 19, 2007


Nanotechnology is showing promise in treating spinal cord injuries and could 
conceivably reverse paralysis, according to a report on the future of the 
emerging technology in medicine. The report, released at a Washington forum this
week, said nanotechnology -- or the use of materials on the scale of atoms and 
molecules -- may also help cure other ailments believed to be intractable by 
repairing damaged organs or tissue. This suggests damage from heart attacks or 
strokes, bone or tooth loss or ailments such as diabetes and Parkinson's disease
could be treated with nanotechnology, researchers said. 
(Yahoo News 4.27.07)


http://news.yahoo.com/s/afp/20070427/ts_alt_afp/ushealthmedicinenanotechnology_070427074643


100% Biodegradable NANOIL Ready For Automobiles. Nano Chemical Systems Holdings,
Inc., announced recently their latest entry into the multi-billion dollar 
performance chemical category, NANOIL, a "nano-enhanced" GREEN motor oil. Unlike
today's fossil and synthetic oils, NANOIL is non-toxic and bio-degradable, thus
eliminating the current disposal issues with present commercially available 
lubricants. Nanochem will produce NANOIL utilizing its nano-technology patent 
applications and inventions that directly address bio-fuel production for a 
nano-enhanced line of "green" bio-lubricants. Initial results indicate that 
these bio-lubricants can perform as well as today's fossil and synthetic oils. 
(Chemical Online 4.27.07)


http://www.chemicalonline.com/content/news/article.asp?docid=8a929e6c-ee2d-4523-9616-f1089c78c138&atc~c=771+s=773+r=001+l=a&VNETCOOKIE=NO


NIST Nano Center Accepting Proposals. Looking for a state-of-the-art place to 
study nanotechnology-related products? If yes, then the U.S. Commerce 
Department's National Institute of Standards and Technology (NIST) may be able 
to help. (Industry Week 5.15.07) 
http://www.industryweek.com/ReadArticle.aspx?ArticleID=14196


Finding by Rice University chemists could aid development of new nanodevices. 
Gold nanorods assemble themselves into rings. Rice University chemists have 
discovered that tiny building blocks known as gold nanorods spontaneously 
assemble themselves into ring-like superstructures. This finding, which will be 
published as the inside cover article of the March 19 international edition of 
the chemistry journal Angewandte Chemie, could potentially lead to the 
development of novel nanodevices like highly sensitive optical sensors, 
superlenses, and even invisible objects for use in the military. 
(Rice University 3.9.07)
http://www.media.rice.edu/media/NewsBot.asp?MODE=VIEW&ID=9358&SnID=415793553>


Engines of Creation 2.0: The Coming Era of Nanotechnology - Updated and Expanded
By K. Eric Drexler (father of nanotechnology) is available exclusively from 
WOWIO at www.wowio.com and is free of charge to registered users. 


Plenty of room for MRIs at a nano scale... a research team now reports. 
Combining an MRI with the precision of atomic-force microscopes, a team led by 
Dan Rugar of the IBM Research Division in San Jose, Calif., unveiled MRI images 
60,000 times smaller than anything imaged by MRI previously, down to 90 
nanometer resolution - about 10 times bigger than your typical molecule and 
right in the range of the integrated circuits doing all the calculations behind 
your computer screen. The result, the team writes in the current Nature 
Nanotechnology journal, "demonstrates the feasibility of pushing MRI into the 
nanoscale regime." (USA Today 5.1.07)


http://www.usatoday.com/tech/science/columnist/vergano/2007-04-29-nano-mri_N.htm?csp=34


Iowa State scientists demonstrate first use of nanotechnology to enter plant 
cells. A team of Iowa State University plant scientists and materials chemists 
have successfully used nanotechnology to penetrate plant cell walls and 
simultaneously deliver a gene and a chemical that triggers its expression with 
controlled precision. Their breakthrough brings nanotechnology to plant biology 
and agricultural biotechnology, creating a powerful new tool for targeted 
delivery into plant cells. (Iowa State University 5.16.07) 
http://www.iastate.edu/~nscentral/news/2007/may/nanotech.shtml 


Super small nanoelectrodes can probe microscale environments. Investigating the 
composition and behavior of microscale environments, including those within 
living cells, could become easier and more precise with nanoelectrodes being 
developed at the University of Illinois. "The individual nanotube-based probes 
can be used for electrochemical and biochemical sensing," said Min-Feng Yu, a U.
of I. professor of mechanical science and engineering, and a researcher at the 
university's Beckman Institute. "The position of the nanoelectrodes can be 
controlled very accurately."

(U of Ill at Urbana-Champaign 3.9.07) 
http://www.news.uiuc.edu/news/07/0309nanoelectrodes.html


An Australian biotechnology firm said on Thursday it had developed a means of 
delivering anti-cancer drugs directly to cancer cells, which aims to avoid the 
debilitating toxicity associated with chemotherapy. The method uses 
nanotechnology, which involves molecules far smaller than a human cell. Direct 
targeting of chemotherapy drugs would allow dosages thousands of times lower 
than that in conventional chemotherapy and be more easily tolerated by patients,
said the firm. Writing in the May issue of U.S.-based Cancer Cell journal, the 
biotech firm EnGeneIC said it had developed nano-cells containing chemotherapy 
drugs. (Yahoo 5.10.07)
http://news.yahoo.com/s/nm/20070510/hl_nm/cancer_australia_dc_1


New JILA apparatus measures fast nanoscale motions. A new nanoscale apparatus 
developed at JILA-a tiny gold beam whose 40 million vibrations per second are 
measured by hopping electrons-offers the potential for a 500-fold increase in 
the speed of scanning tunneling microscopes (STM), perhaps paving the way for 
scientists to watch atoms vibrate in high definition in real time. The new 
device measures the wiggling of the beam, or, more precisely, the space between 
it and an electrically conducting point just a single atom wide, based on the 
speed of electrons "tunneling" across the gap. The work is the first use of an 
"atomic point contact," the business end of an STM, to sense a nanomechanical 
device oscillating at its "resonant" frequency, where it naturally vibrates like
a tuning fork. (EurekAlert 3.16.07) 
http://www.eurekalert.org/pub_releases/2007-03/nios-nja031607.php


A new nano-insulin delivery pump for worry-free treatment for diabetics...In 
what may be a sizeable breakthrough in medical technology (and quite a relief 
for diabetics), medical device company Debiotech and Switzerland-based 
STMicroelectronics have entered into a strategic cooperation agreement to 
manufacture and deliver the award-winning miniaturised insulin-delivery pump. 
(Business Standard 5.1.07)


http://www.business-standard.com/common/storypage.php?autono=282949&leftnm=8&subLeft=0&chkFlg=


Top tiny creations. A recent story about 'microscopic alphabet soup' created at 
UCLA got us thinking about all the quirky ways researchers have chosen to 
demonstrate new micro, nano-scale technology. (New Scientist Technology Blog 
3.22.07)


http://www.newscientist.com/blog/technology/2007/03/top-tiny-creations.html?DCMP=Matt_Sparkes&nsref=nano


Paralyzed Mice Walk Again. Scientists Use Nanotechnology to Mend Broken Spinal 
Cords. Samuel Stupp has a bunch of mice that used to drag their hind legs behind
them when they crawled around his Illinois lab, but they have miraculously 
regained at least partial use of their rear legs. Astonishingly, their severed 
spinal cords have been repaired, at least partly, without surgery or drugs. All 
it took was a simple injection of a liquid containing tiny molecular structures 
developed by Stupp and his colleagues at Northwestern University. Six weeks 
later, the mice were able to walk again. They don't have their former agility, 
but their injuries should have left them paralyzed for life... Stupp's team 
concentrates on combining the incredibly small world of nanotechnology with 
biology, creating molecules that self-assemble into large molecular structures 
that can literally "hug" around cells in the human body. (ABC News 5.1.07)
http://abcnews.go.com/Technology/story?id=3102679&page=1&CMP=OTC-RSSFeeds0312


A Single-Photon Server with Just One Atom. Physicists at Max Planck Institute of
Quantum Optics have succeeded in turning a Rubidium atom into a single-photon 
server.  The high quality of the single photons and their ready availability are
important for future quantum information processing experiments with single 
photons. In the relatively new field of quantum information processing the goal 
is to make use of quantum mechanics to compute certain tasks much more 
efficiently than with a classical computer. (Max Planck Society 3.12.07)


http://www.mpg.de/english/illustrationsDocumentation/documentation/pressReleases/2007/pressRelease200703091/index.html


Magnetic tweezers unravel cellular mechanics. By injecting tiny magnetic beads 
into a living cell and manipulating them with a magnetic 'tweezer', scientists 
of the University of Twente, The Netherlands, succeed in getting to know more 
about the mechanics of the cell nucleus. (physorg 5.14.07) 
http://www.physorg.com/news98378757.html


Student Creates Garment With Bacteria-trapping Nanofibers. Fashion designers and
fiber scientists at Cornell have taken "functional clothing" to a whole new 
level. They have designed a garment that can prevent colds and flu and never 
needs washing, and another that destroys harmful gases and protects the wearer 
from smog and air pollution. The two-toned gold dress and metallic denim jacket,
featured at the April 21 Cornell Design League fashion show, contain cotton 
fabrics coated with nanoparticles that give them functional qualities never 
before seen in the fashion world. (Science Daily 5.7.07)
http://www.sciencedaily.com/releases/2007/05/070506091754.htm


Inexpensive 'nanoglue' can bond nearly anything together. Researchers at 
Rensselaer Polytechnic Institute have developed a new method to bond materials 
that don't normally stick together. The team's adhesive, which is based on 
self-assembling nanoscale chains, could impact everything from next-generation 
computer chip manufacturing to energy production. Less than a nanometer - or one
billionth of a meter - thick, the nanoglue is inexpensive to make and can 
withstand temperatures far higher than what was previously envisioned. In fact, 
the adhesive's molecular bonds strengthen when exposed to heat. (EurekAlert 
4.16.07) http://www.eurekalert.org/pub_releases/2007-05/rpi-ic051507.php


Demand for nanotech-based medicine grows. U.S. demand for nanotechnology medical
products will increase over 17 percent per year to $53 billion in 2011, says 
The Freedonia Group, Inc., a Cleveland-based industry research firm. Afterwards,
the increasing flow of new nanomedicines, nanodiagnostics, and nanotech-based 
medical supplies and devices into the US market will boost demand to more than 
$110 billion in 2016. The firm reports these and other findings in its new 
study, Nanotechnology in Healthcare. (SmallTimes 3.19.07)


http://www.smalltimes.com/articles/article_display.cfm?Section=ONART&C=Bio&ARTICLE_ID=287462&p=109


Lighting the nanoworld with nanolamps. An interdisciplinary team of researchers 
at Cornell University (CU) has built 'nanolamps.' These extremely small light 
bulbs are made of light-emitting nanofibers about the size of a virus or the 
tiniest of bacteria. Using a technique called electrospinning, the researchers 
spun the fibers from a metallic element, the ruthenium, and a polymer. These 
nanofibers "are so small that they are less than the wavelength of the light 
they emit." Apparently, these nanofibers are easy to produce. But before they 
can be integrated into our increasingly smaller electronic devices, there still 
is a need to know how long these nanolamps can last. 
(ZDnet 4.14.07) http://blogs.zdnet.com/emergingtech/?p=542


Nanoparticles 'safe for soil bugs'. Ronald Turco at Purdue University in West 
Lafayette, Indiana, and his colleagues have found that fullerenes, nanoscale 
carbon spheres, do not harm microbes when released into the soil. Their study is
the first of its kind to focus on soil microbes, which play a key role in 
recycling nutrients used by plants (Environmental Science & Technology, DOI: 
10.1021/es061953l).(NewScientist 5.5.07)


http://www.newscientisttech.com/article.ns?id=mg19426025.800&feedId=nanotechnology_rss20


Nanorockets - the ultimate baby boosters? Brian Gilchrists.  design for a rocket
ship sounds like a bad joke. For a start, its engine is about the size of a 
single bacterium. And for thrust it relies on the equivalent of chucking 
microscopic beer cans out of the spacecraft's rear window. Gilchrist, an 
electrical engineer at the University of Michigan, Ann Arbor, is not joking 
though. He proposes to harness the latest nanotechnology to create an engine 
that will make its way across the solar system by firing out minute metal 
particles like so much nano-sized grapeshot. (New Scientist 3.24.07)


http://space.newscientist.com/article.ns?id=mg19325961.500&feedId=fundamentals_rss20


Growing Nerve Cells in 3-D Dramatically Affects Gene Expression. Nerve cells 
grown in three-dimensional environments deploy hundreds of different genes 
compared with cells grown in standard two-dimensional petri dishes, according to
a new Brown University study. The research, spearheaded by bioengineer Diane 
Hoffman-Kim, adds to a growing body of evidence that lab culture techniques 
dramatically affect the way these cells behave. (Brown 5.15.07)
http://www.brown.edu/Administration/News_Bureau/2006-07/06-156.html


The longest carbon nanotubes you've ever seen. Using techniques that could 
revolutionize manufacturing for certain materials, researchers have grown carbon
nanotubes that are the longest in the world. While still slightly less than 2 
centimeters long, each nanotube is 900,000 times longer than its diameter. The 
fibers--which have the potential to be longer, stronger and better conductors of
electricity than copper and many other materials--could ultimately find use in 
smart fabrics, sensors and a host of other applications. To grow the aligned 
bundles of tiny tubes, the researchers combined advantages of chemical vapor 
deposition (CVD), a technique for creating thin coatings that is especially 
common in the semiconductor industry, with a novel substrate and catalyst onto 
which the carbon attaches. (EurkAlert 5.10.07)
http://www.eurekalert.org/pub_releases/2007-05/nsf-tlc051007.php


Nanoscale pasta: Toward nanoscale electronics. Pasta tastes like pasta - with or
without a spiral. But when you jump to the nanoscale, everything changes: 
carbon nanotubes and nanofibers that look like nanoscale spiral pasta have 
completely different electronic properties than their non-spiraling cousins. 
Engineers at UC San Diego, and Clemson University are studying these differences
in the hopes of creating new kinds of components for nanoscale electronics. 
(physorg 5.18.07)
http://www.physorg.com/news98713032.html

Happy weekend!

Gina "Nanogirl" Miller
Nanotechnology Industries
http://www.nanoindustries.com
Personal: http://www.nanogirl.com
Animation Blog: http://maxanimation.blogspot.com/
Craft blog: http://nanogirlblog.blogspot.com/
Foresight Senior Associate http://www.foresight.org
Nanotechnology Advisor Extropy Institute  http://www.extropy.org
Email: 
"Nanotechnology: Solutions for the future."

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