Attention science geeks....the future of NanotechnologyPosted by marie on 7/09/04 at 11:53 (154942)
This is a photo through an electron microscope of some nano wires that my son grew for his research this summer. I am including some information on the field of Nanotechnology. This research will have a huge impact on the medical and pharmaceutical industry in the future. His research is being sponsored by BSAF.
By Robert Gavin, Globe Staff, 3/6/2004
Nanotechnology creates devices smaller than a human hair, and it might just be the next big thing in Massachusetts.
A new study by the Massachusetts Technology Collaborative and Cambridge-based Nano Science and Technology Institute says the state's universities, entrepreneurial networks, and diversified technology base make it well-positioned to cash in on this emerging field, which the federal government projects could create a $1 trillion worldwide market by 2015. Scientists see the technology, which builds structures about one-thousandth the width of a human hair, leading to an array of new materials and products, from longer-lasting batteries to more powerful computers to ''smart pills' that deliver the right dose of drugs at the right time.
The study, released in conjunction with a national nanotechnology conference that opens in Boston tomorrow, finds that Massachusetts has already grabbed a lead in the field, much of it based on the strength of its research universities. To maintain the lead, the state must support university research efforts, and bring together academia and industry to commercialize discoveries, the study said. ''We have to continue to win on research,' said Thomas Hubbard, vice president for technology development at the Massachusetts Technology Collaborative, a state economic development agency. ''And we have to exploit the burgeoning amount of intellectual property that's coming out of our universities.' Massachusetts is already home to two federally funded nanotechnology research centers: Harvard University's Center for the Science of Nanoscale Systems and Their Device Applications, and the Institute for Soldier Nanotechnologies at the Massachusetts Institute of Technology. In addition, the state's universities boast top-ranked programs in a variety of disciplines critical to nanotechnology, including physics, chemistry, materials science, and biomedical engineering the study said.
The entrepreneurial culture and well-established venture capital sector in the state also provide key components to move products from the lab to the marketplace, the study said. A number of start-ups are already at work, using nanotechnology to build lighter and cheaper solar cells, improve computer memory, and enhance drug discovery. Massachusetts has at least 100 firms developing nanoscale products and processes, the study estimated.
Ultimately, the study said, nanotechnology's greatest impact is likely to come from its application across many industries, and Massachusetts has a mix that is likely to benefit most from nanotechnology, including electronics, medical devices, biotechnology and advanced materials.
Story location: http://www.boston.com/business/technology/.. .
Turning Science Fiction Into Fact
In the future, our computers no longer crash as we try and download pictures that are too heavy in memory, our cars no longer pollute the atmosphere and cancer could be dealt with by a visit to the GP. Some of it, at least, will happen thanks to cutting edge research happening now at the University of Leicester Department of Physics and Astronomy.
Here scientists are among a handful across the world helping to turn science fiction into a fact of the future through the science of nanotechnology.
Their work relates to the miniscule -smaller than a grain of talcum powder - in the realms of one thousand millionth of a metre in size. At the other end of the spectrum they are concerned with computer memories thousands of times more powerful than they are now; potential new ways of targeting cancer cells too small or fragmented to be identified with current technology; hugely enhanced mobile phone batteries; and safe, effective ways of storing fuel for hydrogen cars.
This is all in the realms of the future, but when, one day, it ceases to be the stuff of science fiction and becomes scientific fact, then that will be because of research in just a handful of laboratories worldwide, one of which is at the University of Leicester.
Chris Binns, Professor of Nanoscience at the University, explained some of the projects he and his research team are working on:
'Our main current research is the properties of nano-particles of 10-1000 atoms, just one or two nanometres across. What is interesting about them is that they show us how matter is developed, how properties change as a result of the number of atoms in a cluster. Clusters of atoms have characteristics that are different from the atoms themselves, and they become giant artificial atoms whose properties you can change.
Recently Professor Binns has been looking at ways of making materials out of these clusters. 'We start with designer atoms and build materials out of them. Taking them in gas form, we can make clusters and coat surfaces. The material they make is very different because the clusters retain a memory of their novel properties in the gas phase.
With major funding from the magnetic recording industry, in particular Seagate, Leicester researchers are working on the production of a material that is more magnetic than anything available at the moment. 'The most magnetic material today has been around for about a century, Chris Binns said. 'We think the clusters we are working on may produce something that is far more magnetic. The thing that limits magnetic recording is the write head. The effectiveness of this is constrained by the degree of magnetism between the write head and the surface it links to. If we can come up with much higher magnetism then computer disks could become much more powerful.
As far as breaking the record for the most magnetic material is concerned this is the only game in town.
Looking to the future, the Leicester research team, in collaboration with Dr Ellis and Dr Wheeler in the Chemistry department, has recently applied for funding to develop even more sophisticated clusters. In what Professor Binns calls 'nanocluster onions , they will produce a core containing tens to hundreds of atoms, around which they will grow sophisticated shells that would not occur in nature.
The applications for this branch of nanotechnology are enormous. 'If we can achieve this, it will allow us to produce particles using nanotechnology for cancer diagnosis. We could attach antibodies for tumours to the clusters and inject them into the body, and they would find the tumour and kill the tumour cells. This is very exciting stuff. The clusters would be able to detect tumours too small to see, including tumours that have dispersed.
'Potentially you could go to your GP, be injected with these clusters and then walk through something like an airport security arch, and any cancer cells in your body could be located and dealt with.
In three or four years Professor Binns hopes they will be able to get suspensions of the clusters in solution. Then they have to attach biological particles to the clusters. He is, however, optimistic about this stage. 'This has already been done. The problems will come in the medical field. How would it work in the body? What side effects might there be?
Core-Shell cluster technology also has applications for the mobile phone battery, as well as for magnetic recording of the future. Computer memory that currently requires a surface of 100 x 100 nanometres could, using shell technology, be stored on a single particle of 2 x 2 nanometres, multiplying the total memory by a factor of 1000.
It may also change motoring of the future. The move is increasing to get away from petrol-fuelled cars. Hydrogen is a clean, non-polluting fuel, which can be obtained from anything as simple as sea water. The problem is in storing it. In gas form it would have to be stored in huge cylinders too heavy for a car to tow. In liquid form it is too dangerous for general consumption. Using nanotechnology, you could store enough hydrogen as a gas in a 'metal sponge weighing a few kilogrammes to power a car over the same distance as a conventional petrol tank.
'These are all real possibilities for the future, Professor Binns said, 'though for some of them we are looking decades ahead.
There is, however, no harm in dreaming of such a future, when our computers no longer crash as we try and download pictures that are too heavy in memory, when our cars no longer pollute the atmosphere and when cancer can be dealt with by a visit to the GP. Some of it, at least, will happen.
Re: Attention science geeks....the future of NanotechnologyRichard, C.Ped on 7/09/04 at 14:12 (154961)
Re: Attention science geeks....the future of Nanotechnologymarie on 7/09/04 at 14:39 (154968)
Re: Attention science geeks....the future of NanotechnologyRichard, C.Ped on 7/09/04 at 15:24 (154979)
Hee hee! just kidding
Re: Attention science geeks....the future of Nanotechnologymarie on 7/09/04 at 18:18 (155003)
Yeah both my boys are complete nerds. They are cute ones though. :) I had no idea what nanotechnology was until he signed on for this project. Now I must admit I'm fascinated by it. My oldest is going to be a junior next year in college and is going for Bimoleculor Engineering (don't ask me anything about it cause I just pay the bills) my youngest is going for a BS in plastics and rubber engineering technology...hopefully as he'll be a senior in high school this year.
Richard this is what you'll be doing in 15-18 years. It's a fun stage of life but I will miss them when they are completely out of the house. It's kind of a bitter sweet time. I'm proud of them and I know my boys have a great future ahead of them but they're still my babies.
PS: 'Be nice to nerds because someday you'll be working for one'.
best wishes marie