Downsizing.Nanotechnology--Why you should sweat the small stuff Sweat the Small Stuff is a standup comedy special performed by Kevin James of King of Queens. It has been seen on Comedy Central and released on DVD. Kevin performs hilarious standup on various subjects based on annoyances of everyday life, hence the title. WE MAKE MOST EVERYTHING BY tearing stuff apart. To make paper, we plant trees, chop them down, and send the wood through our mills. To make spoons, we yank Yank steamship stoker vainly tries to climb the social ladder, then fails in attempt to avenge himself on society. [Am. Drama: O’Neill The Hairy Ape in Sobel, 339] See : Failure (jargon) yank iron up out of the earth, drop it into blast furnaces to make steel, and then mold and shape it at extreme temperatures. But what if we could work from the bottom up and construct paper from atoms, the smallest building blocks of life and matter? What if we could make a spoon by taking individual iron atoms and locking them together one by one with carbon atoms and whatever else we wanted? It'd sure be easier and cleaner. We could throw away those miners' helmets, plant geraniums in our blast furnaces, and create almost anything out of our trash. The idea has been percolating since 1959 when Richard Feynman Noun 1. Richard Feynman - United States physicist who contributed to the theory of the interaction of photons and electrons (1918-1988) Feynman, Richard Phillips Feynman , one of the century's most admired physicists, gave a speech titled "There's Plenty of Room at the Bottom There's Plenty of Room at the Bottom is the title of a famous lecture given by physicist Richard Feynman at an American Physical Society meeting at Caltech on December 29 in 1959. " in which he argued that: "The principles of physics, as far as I can see, do not speak against the possibility of maneuvering things atom by atom" Of course, saying something is possible doesn't mean it's practical and for years afterward the vision wavered, attracting more attention from science fiction philosophers than actual scientists. Eric Drexler, the man who first laid out for a popular audience the complex potential of nanotechnology with his 1986 book Engines of Creation, was given only slightly more credit by the scientific community than the average street-corner chemist explaining how to fax your brain to Neptune. But in the last few years, scientists have come up with one important innovation after another in nanotechnology (the term conveys the size of the objects to be manipulated: a nanometer is one billionth of a meter) and science fiction has gradually been rolling into science fact. New articles appear almost monthly in the leading scientific journals and university research departments are starting to fill with enthusiasts. Chemist Paul Alivisatos A. Paul Alivisatos is an American scientist, researching the structural, thermodynamic, optical, and electrical properties of nanocrystals. Alivisatos graduated with a bachelors in chemistry from the University of Chicago in 1981, and with a doctorate in physical chemistry at the University of California, Berkeley The University of California, Berkeley is a public research university located in Berkeley, California, United States. Commonly referred to as UC Berkeley, Berkeley and Cal , says that, 10 years ago, he was the only one in his department working on nanotech; now about 30 percent of the department does. In his 2000 State of the Union address “State of the Union” redirects here. For other uses, see State of the Union (disambiguation). The State of the Union is an annual address in which the President of the United States reports on the status of the country, normally to a joint session of Congress (the , President Clinton asked us to imagine some of the possibilities: "materials with ten times the strength of steel and only a small fraction of the weight, shrinking all of the information housed in the Library of Congress into a device the size of a sugar cube sugar cube Drug slang A popular street term for LSD, named for a common delivery “device”, a sugar cube , detecting cancerous tumors when they are only a few cells in size" This year, you can buy sunscreen sunscreen /sun·screen/ (-skren) a substance applied to the skin to protect it from the effects of the sun's rays. sun·screen n. whose development owes a crucial debt to nanotechnology; IBM (International Business Machines Corporation, Armonk, NY, www.ibm.com) The world's largest computer company. IBM's product lines include the S/390 mainframes (zSeries), AS/400 midrange business systems (iSeries), RS/6000 workstations and servers (pSeries), Intel-based servers (xSeries) is using nanotech processes to produce read heads (part of a computer's hard drive); and samples of hybrid materials stronger than steel can be purchased online for $1000 a gram. It seems great, and a lot of it truly is. But we're also pointing our raft down some pretty wild, unmapped waters. Nanotechnology is like biotechnology and genetic engineering on steroids. Together with almost magical possibilities, it portends brutal military applications, dystopic scenarios in which parts of the world turn into "gray goo," and we are moving one giant step closer to playing with the very basis of life. We can't and shouldn't turn the clock backwards; but there remain crucial steps that we need to take, and there is a critical role for government in the development of this technology. Clinton's proposed National Nanotech Initiative should pass Congress in some form this fall; but there needs to be more. Deep government involvement in nanotechnology is more than a practical obligation from a research and national defense perspective. It's close to becoming a moral imperative A moral imperative is a principle originating inside a person's mind that compels that person to act. It is a kind of categorical imperative, as defined by Immanuel Kant. Kant took the imperative to be a dictate of pure reason, in its practical aspect. . Eve of the Atom Nature has created wonderful things, but there are inefficiencies everywhere. Arrange carbon atoms one way and you'll get diamond: a strong substance but not a terribly flexible one. Rearrange them and you'll get rubber bands: flexible, but weak and unable to conduct electricity. There's also another way to fit them together that nature hasn't figured out on its own--but that scientists in a lab at Rice University have. Richard Smalley Noun 1. Richard Smalley - American chemist who with Robert Curl and Harold Kroto discovered fullerenes and opened a new branch of chemistry (born in 1943) Richard E. Smalley, Richard Errett Smalley, Smalley , a Nobel-prize-winning chemist there, has used nanotechnology to create molecules, called nanotubes, that are stronger than any object on earth yet still extremely flexible. If designed to be straight, these nanotubes conduct electricity better than gold; if given a slight twist, they can serve as transistors. It is currently much too complicated and expensive to use these nanotubes to build original structures from the ground up, but we're not far from being able to mix them in with, for example, the materials currently used to make airplane wings. It's also quite possible that, in 10 or 15 years, we may be able to use something like Smalley's molecules to make entire airplane wings or widescale power systems based on molecular solar panels that take up only a tiny fraction of the space needed for such systems today. In about the same time, there is strong hope that molecular manipulation could power computers. Computers work on a binary system binary system, numeration system based on powers of 2, in contrast to the familiar decimal system, which is based on powers of 10. In the binary system, only the digits 0 and 1 are used. , meaning that every problem is translated into a series of zeros and ones rapidly added together. (A computer is like a small child who counts on her thumbs, but does it at something approaching light speed.) Modern computers add these basic alternatives together through complicated constructions based on tiny transistors etched into silicon that either carry electrons (one) or don't (zero). Programs translate whatever you input (the letters you type, for example) into this code of ones and zeros and send the data back to the transistors to be processed. Last summer, researchers at Hewlett Packard and UCLA UCLA University of California at Los Angeles UCLA University Center for Learning Assistance (Illinois State University) UCLA University of Carrollton, TX and Lower Addison, TX led by James Heath announced that they had built a single molecular layer capable of serving as a switch able to carry out a single operation, allowing electrons to flow once. A few months later, researchers led by James Tour James M. Tour is a synthetic organic chemist, specializing in nanotechnology. He is well-known for his work in molecular electronics and molecular switching molecules. He has also been involved in other work, such as the creation of a nanocar and NanoKids, an interactive learning of Rice and Mark Reed Mark Reed may refer to:
There are of course many major steps that must be taken before molecular computers sweep the world and we all embed them in our shoes. Long chains of molecules have to be built and integrated with the rest of a computer's functions--faster processors are unquestionably un·ques·tion·a·ble adj. Beyond question or doubt. See Synonyms at authentic. un·ques  tion·a·bil great, but who wants a monitor the size of a fruit fly? Assembly lines and production factories would have to be tamed inside out and, like all technologies, it would take a while for it to spread through society, if it ever did. Still, the advantages of nanotechnology are so extraordinary that there's substantial reason to push ahead even if nothing's inevitable. According to according toprep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. Neil Lane, chief scientific adviser to the president, developments in the field "are likely to change the way almost everything--from vaccines, to computers, to automobile rims, to objects not yet imagined--is designed and made." Birth of the Cool Individual companies, however, seem unlikely to start vigorously building these molecular computers or digging into nanotechnology's other potential uses. We're at a scientific halfway point. We know that the technology is plausible, and even likely; but we haven't advanced enough for private industry to commit money to more than sporadic or targeted research. Scientists still have to trudge pretty deep into the jungle and they are likely to frequently step in quicksand quicksand State in which water-saturated sand loses its supporting capacity and acquires the characteristics of a liquid. Quicksand is usually found in a hollow at the mouth of a large river or along a flat stretch of stream or beach where pools of water become partly filled . As a result, companies seem likely to support niche research--Nanophase, the company making sunscreen, is researching nanocrystals; Hewlett Packard is exploring how nanotechnology can improve computer memory--but funding for research into the big questions seems more likely to come from public sources. According to Alivisatos: "The government has got to be a major player. It won't just happen in industry. You can't say that this technology is going to make you $400 million next quarter." Nanotechnology also involves vast overlaps between traditionally defined fields. Every breakthrough by physicists pushes the chemistry a little further, which pushes the molecular biology molecular biology, scientific study of the molecular basis of life processes, including cellular respiration, excretion, and reproduction. The term molecular biology was coined in 1938 by Warren Weaver, then director of the natural sciences program at the Rockefeller and so on. But the many arms of research haven't cut a single path forward. To progress, there needs to be constant information sharing--one more unlikely development from companies hoping to patent the ultimate technique. In fact, much of the research that has already led to important advancements in the field has been government-funded. James Tour and Mark Reed, for example, completed much of their research into molecular computing with support from DARPA DARPA: see Defense Advanced Research Projects Agency. (Defense Advanced Research Projects Agency) The name given to the U.S. Advanced Research Projects Agency during the 1980s. It was later renamed back to ARPA. , the Defense Advanced Research Projects Agency Defense Advanced Research Projects Agency (DARPA), U.S. government agency administered by the Department of Defense (see Defense, United States Department of). . A good parallel comes from another project initially funded by DARPA: the Internet. Private industry has spurred incredible Internet development, but government took the first steps. The ARPANET (Advanced Research Projects Agency NETwork) The research network funded by the U.S. Advanced Research Projects Agency (ARPA). The software was developed by Bolt, Beranek and Newman (BBN), and Honeywell 516 minicomputers were the first hardware used as , the backbone for what would eventually be transformed into the Internet, was designed in the late '60s to facilitate communication during nuclear battle. The same pattern holds for invention after invention. Global position satellites were first created for military use and are now used by everyone from lost hikers to UPS. Government helped spur along laser beam technology that we now use to etch circuits into silicon and improve vision. The Next Big Thing Is Small The problem for scientists, and the principal reason for the murkiness of the road ahead, lies in how complicated the science gets at this size. In large groups, atoms move predictably. Left alone, they tend to skid randomly in "Brownian motion Brownian motion Any of various physical phenomena in which some quantity is constantly undergoing small, random fluctuations. It was named for Robert Brown, who was investigating the fertilization process of flowers in 1827 when he noticed a “rapid oscillatory ," and similar problems arise from the quantum effect: the ability of single electrons to manifest in two places at the same time. According to Martin Muscovits of the University of Toronto Research at the University of Toronto has been responsible for the world's first electronic heart pacemaker, artificial larynx, single-lung transplant, nerve transplant, artificial pancreas, chemical laser, G-suit, the first practical electron microscope, the first cloning of T-cells, , a machine trying to handle individual atoms could easily become confused and place them incorrectly "like a poorly handled marionette marionette: see puppet. marionette Puppet figure manipulated from above by strings attached to a wooden cross or control. The figure, also called a string puppet, is usually manipulated by nine strings, attached to each leg, hand, shoulder, and ear that places a forkful of food in its eye." Other scientists describe what they call the "fat fingers" problem: Picking up and moving atoms entails building instruments at least as big as the things they are moving. Individual atoms also react to tiny increments of heat and motion. When researchers were first able to push them around with a device called a Scanning Tunneling Microscope scanning tunneling microscope, device for studying and imaging individual atoms on the surfaces of materials. The instrument was invented in the early 1980s by Gerd Binnig and Heinrich Rohrer, who were awarded the 1986 Nobel prize in physics for their work. , the experiment was carried out in a vacuum at a temperature approaching absolute zero (-459 degrees Fahrenheit). Proponents of nanotechnology automatically respond to these concerns with what they call the existence proof: Our bodies, and the bodies of sea anemones or plants for that matter, are essentially nanomachines manipulating single atoms. Our whole body works through a complicated system whereby DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. tells RNA RNA: see nucleic acid. RNA in full ribonucleic acid One of the two main types of nucleic acid (the other being DNA), which functions in cellular protein synthesis in all living cells and replaces DNA as the carrier of genetic to go and tell ribosomes Ribosomes Small particles, present in large numbers in every living cell, whose function is to convert stored genetic information into protein molecules. to go and make proteins that, in turn, create muscles, hormones, and everything else that powers our body. If it's impossible to move atoms around, how do humans do it? It sounds preposterous to even think that, as Eric Drexler described in the 1970s, we could create a machine that could rearrange the atoms in a bale of hay, a few shrubs, and some water, and make a slab of beef. But that isn't so far away from what a cow already does--even if it does it in a way that we are miles from fully understanding. Given recent advancements and our rapidly expanding ability to understand how the body works and how we can mimic it in a laboratory, the optimists who say nanotechnology will eventually have a major impact are probably closer to right than the pessimists focused on Brownian motion. There are Of course numerous forecasted scientific revolutions that flopped or floundered--think how much hype there was about robots 20 years ago. But as Smalley says, "when a scientist says something is possible, they're probably underestimating how long it will take. But if they say it's impossible, they're probably wrong." On Sequoia Time Beyond the funding, the government has an imperative to develop an architecture to influence how nanotech develops. Although the government essentially invented the Internet, once it began to boil over to run over the top of a vessel, as liquid when thrown into violent agitation by heat or other cause of effervescence; to be excited with ardor or passion so as to lose self-control. See under Boil, v. i. os> See also: Boil Over into a societal force, the government kept away and let the technological wonks whose minds were absorbed by their modems essentially choose the Net's regulatory scheme: nothing. Government doesn't tax Web commerce and it has a terribly hard time blocking child pornography Child pornography is the visual representation of minors under the age of 18 engaged in sexual activity or the visual representation of minors engaging in lewd or erotic behavior designed to arouse the viewer's sexual interest. . There are few ways to thwart viruses like `Melissa' or `I Love You.' With genetic engineering, regulations were crafted during the Reagan administration Noun 1. Reagan administration - the executive under President Reagan executive - persons who administer the law by corporations fascinated with the new technology and with economic incentives to make the market grow as quickly as possible. The result was a decision to mostly avoid new legislation and wrap existing laws around the new technology. That was good for the industry, but not great for safety. Nanotechnology has one foot planted in academia, but another firmly planted in the swaggering techno-libertarian culture of Silicon Valley. Nanotech is seen as one of the triumphant gateways into computing's future, and the Valley crowd makes it a hot discussion topic on favored technology Web sites like Slashdot; and magazines like Wired. Consequently, there's a real danger that nanotechnology regulation will continue to swing further and further toward a world where the next gadget is the future and the government is the past. If, as the saying goes, war is too serious to be left just for generals, then nanotechnology is far too serious to be left just to scientists and the new technology firebrands Firebrands is the name of an emerging rock band based in Singapore. The group has been performing and recording a blend of Hard Rock, Funk, Rap and Electronica since early 2005. . As former Wired editor, Paulina Borsook writes in her new book Cyberselfish, "The Silicon Valley worldview world·view n. In both senses also called Weltanschauung. 1. The overall perspective from which one sees and interprets the world. 2. A collection of beliefs about life and the universe held by an individual or a group. contains within it all different colors of freemarket/antiregulation/social Darwinistic/aphilanthropic/guerrilla/neo-pseudo-biological/atomistic threads? Richard Hayes
tr.v. en·am·ored, en·am·or·ing, en·am·ors To inspire with love; captivate: was enamored of the beautiful dancer; were enamored with the charming island. of their toys and just don't see the dangers? So far, the more solemn proponents of nanotechnology have been able to deflect the wild-eyed 20-somethings dreaming of unregulated billions. The disciplines political center is the Foresight Institute The Foresight Nanotech Institute (formerly Foresight Institute) is a Palo Alto, California-based nonprofit organization for increasing awareness the uses and consequences of molecular nanotechnology. , an organization founded by Eric Drexler to plan for a future which nanotechnology will help shape. Foresight directors are emphatic about the potential dangers and they have been publishing papers for years about the possible consequences of nanotechnology and strategies to avoid them. Still, even at Foresight, there is an Overriding optimism that, at the least, needs balancing when real decisions are made. When asked about concerns voiced by very serious scientists, such as Brownian motion, that could undercut the dependability of nanomachines, Christine Peterson, president of the institute, grew exasperated, as though the debate had really been settled beyond discussion for everyone: "I am ashamed that people will say these things "These Things" is an EP by She Wants Revenge, released in 2005 by Perfect Kiss, a subsidiary of Geffen Records. Music Video The music video stars Shirley Manson, lead singer of the band Garbage. Track Listing 1. "These Things [Radio Edit]" - 3:17 2. . It has been dealt with in the literature. There is exhaustive research into this!" Joy To The World The stakes are very high. All too many technological advances make possible more powerful weapons: from slingshots to sharper blades to hydrogen bombs to nasty new toxins. But nanotech has an even larger downside than most, both in the scale of potential disasters and the opportunity for individuals to create them. The main problem stems from the very real possibility of nanoassemblers, it would be impossibly time-consuming to make a piece of paper by hand from the ground up, bonding carbon atoms to one another. But what if we could build Little robots (nanobots) to do it? And nanobots to build more little robots? Then we would start with one nanobot (robotics) nanobot - /nan"oh-bot/ A robot of microscopic proportions, presumably built by means of nanotechnology. As yet, only used informally (and speculatively!). Also called a "nanoagent". , soon have two, then four, eight, sixteen, and so on. If they reproduced every hour, you could fire one up on Friday afternoon and, because of the wonders of exponential growth Extremely fast growth. On a chart, the line curves up rather than being straight. Contrast with linear. , come back on Monday morning to find 18 quintillion One thousand times one quadrillion, which is 1, followed by 18 zeros, or 10 to the 18th power. See space/time. quintillion - 10^30 in Europe (this is called a nonillion in the United States and Canada). . Drink a cup of coffee, check your email, and before you knew it they'd have doubled again. This wouldn't be a bad thing if they were doing something like deradiating nuclear waste and there were some limit to their reproduction; it wouldn't be so good if all 18 quintillion were chewing up the local foliage. In a recent essay quickly seized on by NPR NPR In currencies, this is the abbreviation for the Nepal Rupee. Notes: The currency market, also known as the Foreign Exchange market, is the largest financial market in the world, with a daily average volume of over US $1 trillion. , The New York New York, state, United States New York, Middle Atlantic state of the United States. It is bordered by Vermont, Massachusetts, Connecticut, and the Atlantic Ocean (E), New Jersey and Pennsylvania (S), Lakes Erie and Ontario and the Canadian province of Times and The Washington Post--along with, of course, Slashdot--Bill Joy, one of the founders of Sun Microsystems Sun Microsystems, Inc. (NASDAQ: JAVA[3]) is an American vendor of computers, computer components, computer software, and information-technology services, founded on 24 February 1982. and inventors of the Java programming language, issued a dire warning. "A bomb is blown up only once--but one nanobot can become many, and quickly get out of control ... Thus we have the possibility not just of weapons of mass destruction Weapons that are capable of a high order of destruction and/or of being used in such a manner as to destroy large numbers of people. Weapons of mass destruction can be high explosives or nuclear, biological, chemical, and radiological weapons, but exclude the means of transporting or but of knowledge-enabled mass destruction, this destructiveness hugely amplified by the power of self-replication. I think it is no exaggeration to say we are on the cusp of the further perfection of extreme evil." To Joy, we should just stop developing these technologies so readily tuned to evil or unforeseeable Un`fore`see´a`ble a. 1. Incapable of being foreseen. Adj. 1. unforeseeable - incapable of being anticipated; "unforeseeable consequences" unpredictable - not capable of being foretold disaster: "The only realistic alternative I see is relinquishment." There's a gaping hole in Joy's proposed strategy however: It's impossible. We have never relinquished scientific advancement, even in the easiest cases when research is extremely centralized, the dangers are clear, and the direct human benefits are few--as in nuclear development. With the dispersed technology of nanotech where, eventually, it will be possible for scientists around the world to labor away in small hidden labs designing toxins that can reproduce themselves, it's also impractical. If all of the goodhearted good·heart·ed adj. Kind and generous. good  hearted·ly adv. people in the world relinquished nanotechnology and the next Unabomber turns out to be a molecular biologist, not a mathematician, it might be time to dig Dr. Strangelove's tunnels into the center of the earth. Furthermore, even if relinquishment were practical, there's too much potential benefit. Nanotechnology might well allow us to get most of our energy from non-polluting sources and restore virtual vision to the blind and virtual hearing to the deaf. Mihail Roco, chair of the interagency group that advised the president on nanotech, predicts that, within 10 years, half of all pharmaceuticals will be created by using nanotech. Is this something we want to relinquish? Buckle Up The logical solution is controlled development. The United States United States, officially United States of America, republic (2005 est. pop. 295,734,000), 3,539,227 sq mi (9,166,598 sq km), North America. The United States is the world's third largest country in population and the fourth largest country in area. needs to push the science forward but we also need to lasso lasso (lăs`ō, lăs  `), light, strong rope, usually with a smooth, hard finish, made of a fine quality of hemp or nylon. a thick rope around its neck. We need to make sure that, as much as possible, the main research bases for this technology develop either on our own soil or with close allies, and we need to support much of the early research so it can be closely tied into government regulation. The most obvious danger would come if the United States falls behind the rest of the world and finds itself unable to control the technology. The genie isn't close to out of the bottle yet--we are at least 10 years away from functional nanotechnology in our most advanced labs with some of the best scientists in the world; a small lab in Afghanistan is a great deal further away--but we've gotten off to a slow start. As Roco says, "this is the first major technology in 50 years where the United States does not have a commanding lead internationally." This is doubly important because nanotechnology can't just be used for offensive purposes (like nuclear weapons). The best way to fend off a hostile nanotech attack would be through counter nanotechnology. If some evil scientist really does want to create the dystopia Dystopia Eagerness (See ZEAL.) Brave New World imagined by Bill Joy, he probably couldn't be stopped by ICBMs; it would take predesigned nanotechnology safety systems, built in conjunction with other nations, that could reverse whatever damage was being done. The design of such world-based "active shields," as nano-enthusiasts call them, is a topic for discussion far down the road. We have no idea how the technology will develop and Bill Joy's disaster scenarios are a little farfetched: nano-chemist Susan Sinott says she's "as scared of that as the possibility that my laptop is going to jump off my desk in a minute and eat me" But there are still numerous military implications and we do need to start laying the groundwork for international cooperation and setting the terms for discussion, ideally, by pushing the technology as hard as we reasonably can. A second more likely problem is that some private company, smelling profit, will cut a corner. Ralph Merlde, a leading scientist who recently left a research position at Xerox PARC to work for Zyvex, the first start-up trying to build nanoassemblers, doesn't think that's likely. For one, he argues, corporations want goodwill and probably would support any proposed guidelines. Zyvex, for example, has pledged to support guidelines proposed by Eric Drexler's Foresight Institute that, among other provisions, require that nanoassemblers be forced to rely on broadcast transmissions, or fuel sources that don't exist in nature, and thus prevent them from running rampant. Furthermore, according to Merkle: "The corporation actually has an incentive to manufacture products but keep its replicators in-house. It's not going to give away something that someone else can use to make the same products. It will want a system that it can create things with and sell." There's certainly something to this, but it's not entirely convincing in a world where corporations routinely dump effluent into the drinking-water supply, or to take a more recent example, conceal the fact that their automobile tires are likely to explode on rounding a sharp corner. Moreover, it ignores the fact that there are always corporations on the margins fighting for their lives, willing to sell out their final values for a nickel or an eighth-of-a-point stock price increase. If everyone in the business was making lots of money and able to diligently follow every rule, then everybody else would be trying to start new companies. Eventually, someone would end up on the margin. Yes, the private sector will be needed to move the technology, but there are going to have to be significant national and international constraints and oversights. There's something a little unnerving un·nerve tr.v. un·nerved, un·nerv·ing, un·nerves 1. To deprive of fortitude, strength, or firmness of purpose. 2. To make nervous or upset. in James Von Ehr, the president of Zyvex's, explanation for his company's advantage over government research: "In the private sector we don't need to justify our work to anyone." What's needed is a government that can move and adapts quickly and that can inject some humility into nanotech's development: Fairly soon, companies are going to be trying to make things by next Thursday on the atomic level that natural evolution, in all its wisdom, hasn't made in four billion years. In short, the government needs to ensure that what ends up being good for Zyvex is good for America too. Fortunately, there is some support for scientific funding, necessarily tied to regulation, from both major parties. Moreover, with the amazing completion of the human genome project, there's a spreading recognition that scientific forays based on understanding and mimicking living systems could be as important to the next 40 years as science on the nuclear scale was to the last 40. President Clinton proposed a 500 million dollar nanotech funding initiative that targets five percent of its funding toward ethical research that could begin to create the framework for regulation and Al Gore, if elected, would almost certainly continue this trend: He was the first congressman to hold hearings on the subject, questioning Drexler among others in 1992 on nanotechnology's potential to solve environmental problems. Ideally this would not be a partisan issue, but even with broad support, there'd still be a long way to go. The Department of Defenses nanotech budget, even with Clinton's proposed increase, would still only be $110 million, about the cost of running this summer's single failed test of our Star Wars missile defense. It's possible that nanotechnology will go nowhere and the carcass of the idea will be dropped off somewhere into the vast pile of potential scientific revolutions that did not revolve. But that's not a risk one should really want to take. As Merkle says, if nanotechnology amounts to even half of what many people think it will, "If you've relinquished it, then you're hosed." |
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