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Archive for the ‘nanotechnology’ category: Page 311

Jun 9, 2009

Be Careful What You Wish For

Posted by in category: nanotechnology

People have been worried about nanotechnology for quite some time now; nano-asbestos, advanced nano-enabled weapons, and self-replicating “gray goo” nanobots that accidentally go out of control. But what if everything goes right? What if nanotubes and nanoparticles are functionalized to stay out of the ecosystem? What if there are no major wars? What if nanoreplicators are never built, or if they are, they use modern error correction software to never mutate? What happens if nanotechnology fulfills humanity’s desires perfectly?

In the next decade or so, a new type of desktop appliance will be developed—a nanofactory that consists of very many productive nanosystems—atomically precise nanoscale machines that work together to build bulk amounts of atomically precise products.

The Foresight Technology Roadmap for Productive Nanosystems has identified a number of different approaches for building these atomically precise systems of machines that can produce other nanosystems http://www.foresight.org/roadmaps/. These approaches include Paul Rothemund’s DNA Origami, Christopher Schafmeister’s Bis-proteins, Joe Lynden’s Patterned Atomic Layer Epitaxy, and Robert Freitas and Ralph Merkle’s Diamondoid Mechanosynthesis http://www.rfreitas.com/Nano/JNNDimerTool.pdf, http://e-drexler.com/d/05/00/DC10C-mechanosynthesis.pdf, and http://www.molecularassembler.com/Papers/JCTNPengFeb06.pdf. Each of these approaches has the potential of building the numerous nanoscale electronic, mechanical, and structural components that comprise productive nanosystems.

The ultimate result will be a nanofactory that can build virtually anything—limited only by the laws of physics, the properties of the input feedstock, and the software that controls the device.

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May 3, 2009

Swine Flu Update: are we entering an Age of Pandemics?

Posted by in categories: biological, biotech/medical, existential risks, futurism, geopolitics, nanotechnology, space, sustainability

May 2: Many U.S. emergency rooms and hospitals crammed with people… ”Walking well” flood hospitals… Clinics double their traffic in major cities … ER rooms turn away EMT cases. — CNN

Update May 4: Confirmed cases of H1N1 virus now at 985 in 20 countries (Mexico: 590, 25 deaths) — WHO. In U.S.: 245 confirmed U.S. cases in 35 states. — CDC.

“We might be entering an Age of Pandemics… a broad array of dangerous emerging 21st-century diseases, man-made or natural, brand-new or old, newly resistant to our current vaccines and antiviral drugs…. Martin Rees bet $1,000 that bioterror or bioerror would unleash a catastrophic event claiming one million lives in the next two decades…. Why? Less forest, more contact with animals… more meat eating (Africans last year consumed nearly 700 million wild animals… numbers of chickens raised for food in China have increased 1,000-fold over the past few decades)… farmers cut down jungle, creating deforested areas that once served as barriers to the zoonotic viruses…” — Larry Brilliant, Wall Street Journal


Mar 23, 2009

Detecting Disease by Tattoo

Posted by in categories: biotech/medical, nanotechnology

If you ever swore to yourself (or to another) that you’d never get a tattoo, you may just want to reconsider. You may within just a couple of years have a very good reason to get one made out of “nanoink”.

As recently reported on Discovery News, “nanoink” allows for monitoring blood glucose in real-time right under the skin. It does so by using a hydrophobic nanoparticle that changes colors as glucose levels rise and fall. The ink consists of a glucose-detecting molecule, a color changing dye and a molecule that mimics glucose. These three particles continuously swish around inside a 120-nm orb. When glucose is present, the glucose-detecting molecule attaches and glows yellow; if absent, the ink turns orange.

The use of this technology has the advantage over traditional glucose monitoring, of course, in that there is a one-time needle stick for placing the tattoo over the tens of thousands of sticks that a diabetic will need to have over a lifetime.

Another advantage of nanoink tattooing: they can be removed. At least one researcher from Brown University has developed tattoo ink with microencapsulated beads coated with a polymer that when broken with a single laser treatment can simply be expelled from the body, as opposed to multiple laser removal treatments for conventional tattoos.

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Feb 14, 2009

Russian Lifeboat Foundation NanoShield

Posted by in categories: cybercrime/malcode, existential risks, nanotechnology, policy

I have translated into Russian “Lifeboat Foundation Nanoshield” http://www.scribd.com/doc/12113758/Nano-Shield and I have some thoughts about it:

1) The effective mean of defense against ecofagy would be to turn in advance all the matter on the Earth into nanorobots. Just as every human body is composed of living cells (although this does not preclude the emergence of cancer cells). The visible world would not change. All object will consist of nano-cells, which would have sufficient immune potential to resist almost any foreseeable ecofagy. (Except purely informational like computer viruses). Even in each leaving cell would be small nanobot, which would control it. Maybe the world already consists of nanobots.
2) The authors of the project suggest that ecofagic attack would consist of two phases — reproduction and destruction. However, creators of ecofagy, could make three phases — first phase would be a quiet distribution throughout the Earth’s surface, under surfase, in the water and air. In this phase nanorobots will multiply in slow rate, and most importantly, sought to be removed from each other on the maximum distance. In this case, their concentration everywhere on the Earth as a result would be 1 unit on the cube meter (which makes them unrecognazible). And only after it they would start to proliferate intensely, simultaneously creating nanorobots soldiers who did not replicate, but attack the defensive system. In doing so, they first have to suppress protection systems, like AIDS. Or as a modern computer viruses switches off the antivirus. Creators of the future ecofagy must understand it. As the second phase of rapid growth begins everywhere on the surface of the Earth, then it would be impossible to apply the tools of destruction such as nuclear strikes or aimed rays, as this would mean the death of the planet in any case — and simply would not be in store enough bombs.
3) The authors overestimate the reliability of protection systems. Any system has a control center, which is a blank spot. The authors implicitly assume that any person with a certain probability can suddenly become terrorist willing to destroy the world (and although the probability is very small, a large number of people living on Earth make it meaningful). But because such a system will be managed by people, they may also want to destroy the world. Nanoshield could destroy the entire world after one erroneous command. (Even if the AI manages it, we cannot say a priori that the AI cannot go mad.) The authors believe that multiple overlapping of Nanoshield protection from hackers will make it 100 % safe, but no known computer system is 100 % safe – but all major computer programs were broken by hackers, including Windows and IPod.
4) Nanoshield could develop something like autoimmunity reaction. The author’s idea that it is possible to achieve 100 % reliability by increasing the number of control systems is very superficial, as well as the more complex is the system, the more difficult is to calculate all the variants of its behavior, and the more likely it will fail in the spirit of the chaos theory.
5) Each cubic meter of oceanic water contains 77 million living beings (on the northern Atlantic, as the book «Zoology of Invertebrates» tells). Hostile ecofages can easily camouflage under natural living beings, and vice versa; the ability of natural living beings to reproduce, move and emit heat will significantly hamper detection of ecofages, creating high level of false alarms. Moreover, ecofages may at some stage in their development be fully biological creatures, where all blueprints of nanorobot will be recorded in DNA, and thus be almost no distinguishable from the normal cell.
6) There are significant differences between ecofages and computer viruses. The latter exist in the artificial environment that is relatively easy to control — for example, turn off the power, get random access to memory, boot from other media, antivirus could be instantaneous delivered to any computer. Nevertheless, a significant portion of computers were infected with a virus, but many users are resigned to the presence of a number of malware on their machines, if it does not slow down much their work.
7) Compare: Stanislaw Lem wrote a story “Darkness and mold” with main plot about ecofages.
8 ) The problem of Nanoshield must be analyzed dynamically in time — namely, the technical perfection of Nanoshield should precede technical perfection of nanoreplikators in any given moment. From this perspective, the whole concept seems very vulnerable, because to create an effective global Nanoshield require many years of development of nanotechnology — the development of constructive, and political development — while creating primitive ecofages capable, however, completely destroy the biosphere, is required much less effort. Example: Creating global missile defense system (ABM – still not exist) is much more complex technologically and politically, than the creation of intercontinental nuclear missiles.
9) You should be aware that in the future will not be the principal difference between computer viruses and biological viruses and nanorobots — all them are information, in case of availability of any «fabs» which can transfer information from one carrier to another. Living cells could construct nanorobots, and vice versa; spreading over computer networks, computer viruses can capture bioprinters or nanofabs and force them to perform dangerous bioorganizms or nanorobots (or even malware could be integrated into existing computer programs, nanorobots or DNA of artificial organisms). These nanorobots can then connect to computer networks (including the network which control Nanoshield) and send their code in electronic form. In addition to these three forms of the virus: nanotechnology, biotechnology and computer, are possible other forms, for example, cogno — that is transforming the virus in some set of ideas in the human brain which push the man to re-write computer viruses and nanobots. Idea of “hacking” is now such a meme.
10) It must be noted that in the future artificial intelligence will be much more accessible, and thus the viruses would be much more intelligent than today’s computer viruses, also applies to nanorobots: they will have a certain understanding of reality, and the ability to quickly rebuild itself, even to invent its innovative design and adapt to new environments. Essential question of ecofagy is whether individual nanorobots are independent of each other, as the bacteria cells, or they will act as a unified army with a single command and communication systems. In the latter case, it is possible to intercept the management of hostile army ecofages.
11) All that is suitable to combat ecofagy, is suitable as a defensive (and possibly offensive) weapons in nanowar.
12) Nanoshield is possible only as global organization. If there is part of the Earth which is not covered by it, Nanoshield will be useless (because there nanorobots will multiply in such quantities that it would be impossible to confront them). It is an effective weapon against people and organizations. So, it should occur only after full and final political unification of the globe. The latter may result from either World War for the unification of the planet, either by merging of humanity in the face of terrible catastrophes, such as flash of ecofagy. In any case, the appearance of Nanoshield must be preceded by some accident, which means a great chance of loss of humanity.
13) Discovery of «cold fusion» or other non-conventional energy sources will make possible much more rapid spread of ecofagy, as they will be able to live in the bowels of the earth and would not require solar energy.
14) It is wrong to consider separately self-replicating and non-replitcating nanoweapons. Some kinds of ecofagy can produce nano-soldiers attacking and killing all life. (This ecofagy can become a global tool of blackmail.) It has been said that to destroy all people on the Earth can be enough a few kilograms of nano-soldiers. Some kinds of ecofagy in early phase could dispersed throughout the world, very slowly and quietly multiply and move, and then produce a number of nano-soldiers and attack humans and defensive systems, and then begin to multiply intensively in all areas of the globe. But man, stuffed with nano-medicine, can resist attack of nanosoldier as well as medical nanorobots will be able to neutralize any poisons and tears arteries. In this small nanorobot must attack primarily informational, rather than from a large selection of energy.
15) Did the information transparency mean that everyone can access code of dangerous computer virus, or description of nanorobot-ecofage? A world where viruses and knowledge of mass destruction could be instantly disseminated through the tools of information transparency is hardly possible to be secure. We need to control not only nanorobots, but primarily persons or other entities which may run ecofagy. The smaller is the number of these people (for example, scientists-nanotechnologist), the easier would be to control them. On the contrary, the diffusion of knowledge among billions of people will make inevitable emergence of nano-hackers.
16) The allegation that the number of creators of defense against ecofagy will exceed the number of creators of ecofagy in many orders of magnitude, seems doubtful, if we consider an example of computer viruses. Here we see that, conversely, the number of virus writers in the many orders of magnitude exceeds the number of firms and projects on anti-virus protection, and moreover, the majority of anti-virus systems cannot work together as they stops each other. Terrorists may be masked by people opposing ecofagy and try to deploy their own system for combat ecofagy, which will contain a tab that allows it to suddenly be reprogrammed for the hostile goal.
17) The text implicitly suggests that Nanoshield precedes to the invention of self improving AI of superhuman level. However, from other prognosis we know that this event is very likely, and most likely to occur simultaneously with the flourishing of advanced nanotechnology. Thus, it is not clear in what timeframe the project Nanoshield exist. The developed artificial intelligence will be able to create a better Nanoshield and Infoshield, and means to overcome any human shields.
18) We should be aware of equivalence of nanorobots and nanofabrics — first can create second, and vice versa. This erases the border between the replicating and non-replicating nanomachines, because a device not initially intended to replicate itself can construct somehow nanorobot or to reprogram itself into capable for replication nanorobot.

Feb 9, 2009

Nanotech Development: You Can’t Please All of the People, All of the Time

Posted by in categories: ethics, nanotechnology, policy

Abstract

What counts as rational development and commercialization of a new technology—especially something as potentially wonderful (and dangerous) as nanotechnology? A recent newsletter of the EU nanomaterials characterization group NanoCharM got me thinking about this question. Several authors in this newsletter advocated, by a variety of expressions, a rational course of action. And I’ve heard similar rhetoric from other camps in the several nanoscience and nanoengineering fields.

We need a sound way of characterizing nanomaterials, and then an account of their fate and transport, and their novel properties. We need to understand the bioactivity of nanoparticles, and their effect in the environments where they may end up. We need to know what kinds of nanoparticles occur naturally, which are incidental to other engineering processes, and which we can engineer de novo to solve the world’s problems—and to fill some portion of the world’s bank accounts. We need life-cycle analyses, and toxicity and exposure studies, and cost-benefit analyses. It’s just the rational way to proceed. Well who could argue with that?

Article

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Jan 16, 2009

Could Spider Silk Save Your Life?

Posted by in categories: ethics, military, nanotechnology

Sometimes what may save your life can come from the most unsuspecting places. Then sometimes, what can save your life in one circumstance may be highly risky, or at least technologically premature, in another. Lifeboat Foundation is about making those distinctions regarding emerging technologies and knowing the difference.

MIT scientists from the Institute for Soldier Nanotechnologies announced in January 2007 they had reached an elusive engineering milestone. They had successfully created a synthetic material with the same properties of spider silk.1 The combination of elasticity and strength of spider silk has been a long sought after target for synthetic manufacturing for improving materials as diverse as packaging, clothing, and medical devices. Using tiny clay disks approximately one billionth of a meter, these nanocrystals combined with rubber polymer create the stretchy but strong polymer nanocomposite.

The use of nanocomposites for the production of packaging materials or clothing seems to be a relatively safe and non-controversial because materials remain outside the body. The United States military has already indicated, according to one source, their desire to use the material for military uniforms and to improve packaging for those lovely-tasting MREs.2 In fact, this is why the Army-funded Institute for Soldier Nanotechnology is supporting the research—to develop pliable but tough body armor for soldiers in combat. Moreover, imagine, for example, a garbage bag that could hold an anvil without breaking. The commercial applications may be endless—but there should be real concern regarding the ways in which these materials might be introduced into human bodies.

Although this synthetic spider silk may conjure up images of one day being able to have the capabilities of Peter Parker or unbreakable, super-strength bones, there are some real concerns regarding the potential applications of this technology, particularly for medical purposes. Some have argued that polymer nanocomposite materials could be used as the mother of all Band-Aids or nearly indestructible stents. For hundreds of years, spider silks have been thought to have great potential for wound covering. In general, nanocomposite materials have been heralded for medical applications as diverse as bone grafts to antimicrobial surfaces for medical instruments.

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Nov 25, 2008

Giant planets ignition

Posted by in categories: biotech/medical, existential risks, futurism, geopolitics, nanotechnology, nuclear weapons, rants, space

I wrote an essay on the theme of the possibility of artificial initiation and fusion explosion of giants planets and other objects of Solar system. It is not a scientific article, but an atempt to collect all nesessary information about this existential risk. I conclude that it could not be ruled out as technical possibility, and could be made later as act of space war, which could clean entire Solar system.

Where are some events which are very improbable, but which consequence could be infinitely large (e.g. black holes on LHC.) Possibility of nuclear ignition of self-containing fusion reaction in giant planets like Jupiter and Saturn which could lead to the explosion of the planet, is one of them.

Inside the giant planets is thermonuclear fuel under high pressure and at high density. This density for certain substances is above (except water, perhaps) than the density of these substances on Earth. Large quantities of the substance would not have fly away from reaction zone long enough for large energy relize. This fuel has never been involved in fusion reactions, and it remained easy combustible components, namely, deuterium, helium-3 and lithium, which have burned at all in the stars. In addition, the subsoil giant planets contain fuel for reactions, which may prompt an explosive fire — namely, the tri-helium reaction (3 He 4 = C12) and for reactions to the accession of hydrogen to oxygen, which, however, required to start them much higher temperature. Substance in the bowels of the giant planets is a degenerate form of a metal sea, just as the substance of white dwarfs, which regularly takes place explosive thermonuclear burning in the form of helium flashes and the flashes of the first type of supernova.
The more opaque is environment, the greater are the chances for the reaction to it, as well as less scattering, but in the bowels of the giant planets there are many impurities and can be expected to lower transparency. Gravitational differentiation and chemical reactions can lead to the allocation of areas within the planet that is more suitable to run the reaction in its initial stages.

The stronger will be an explosion of fuse, the greater will be amount of the initial field of burning, and the more likely that the response would be self-sustaining, as the energy loss will be smaller and the number of reaction substances and reaction times greater. It can be assumed that if at sufficiently powerful fuse the reaction will became self-sustaining.

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Oct 8, 2008

Global Catastrophic Risks: Building a Resilient Civilization

Posted by in categories: biological, biotech/medical, chemistry, cybercrime/malcode, defense, events, futurism, geopolitics, lifeboat, military, nanotechnology, nuclear weapons, robotics/AI

November 14, 2008
Computer History Museum, Mountain View, CA

http://ieet.org/index.php/IEET/eventinfo/ieet20081114/

Organized by: Institute for Ethics and Emerging Technologies, the Center for Responsible Nanotechnology and the Lifeboat Foundation

A day-long seminar on threats to the future of humanity, natural and man-made, and the pro-active steps we can take to reduce these risks and build a more resilient civilization. Seminar participants are strongly encouraged to pre-order and review the Global Catastrophic Risks volume edited by Nick Bostrom and Milan Cirkovic, and contributed to by some of the faculty for this seminar.

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Apr 15, 2008

$153 million/city thin film plastic domes can protect against nuclear weapons and bad weather

Posted by in categories: biological, chemistry, defense, existential risks, habitats, lifeboat, military, nanotechnology, nuclear weapons, sustainability

Cross posted from Nextbigfuture

Click for larger image

I had previously looked at making two large concrete or nanomaterial monolithic or geodesic domes over cities which could protect a city from nuclear bombs.

Now Alexander Bolonkin has come up with a cheaper, technological easy and more practical approach with thin film inflatable domes. It not only would provide protection form nuclear devices it could be used to place high communication devices, windmill power and a lot of other money generating uses. The film mass covered of 1 km**2 of ground area is M1 = 2×10**6 mc = 600 tons/km**2 and film cost is $60,000/km**2.
The area of big city diameter 20 km is 314 km**2. Area of semi-spherical dome is 628 km2. The cost of Dome cover is 62.8 millions $US. We can take less the overpressure (p = 0.001atm) and decrease the cover cost in 5 – 7 times. The total cost of installation is about 30–90 million $US. Not only is it only about $153 million to protect a city it is cheaper than a geosynchronous satellite for high speed communications. Alexander Bolonkin’s website

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Apr 8, 2008

Disruptions from small recessions to extinctions

Posted by in categories: biotech/medical, business, defense, existential risks, futurism, habitats, lifeboat, nanotechnology, space, sustainability

Cross posted from Next big future by Brian Wang, Lifeboat foundation director of Research

I am presenting disruption events for humans and also for biospheres and planets and where I can correlating them with historical frequency and scale.

There has been previous work on categorizing and classifying extinction events. There is Bostroms paper and there is also the work by Jamais Cascio and Michael Anissimov on classification and identifying risks (presented below).

A recent article discusses the inevtiable “end of societies” (it refers to civilizations but it seems to be referring more to things like the end of the roman empire, which still ends up later with Italy, Austria Hungary etc… emerging)

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