Nanotechnologists get a squirt gun, almost.It's anything but a Super Soaker Super Soaker is a brand of recreational water gun, first sold in 1989. The first Super Soakers utilized pressurized air to shoot water with greater power, range, and accuracy than conventional squirt guns. . According to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. computer simulations by physicists at the Georgia Institute of Technology Georgia Institute of Technology, in Atlanta, Ga.; coeducational; state supported; chartered 1885, opened 1888. It is a member school in the university system of Georgia. Significant among its facilities and programs are the Frank H. in Atlanta, a fantastically tiny squirt gun that can spit liquids a few hundred nanometers ought to work--if it can be built. Michael F. Moseler and Uzi Landman developed the model of the miniature device to investigate a possible new technology and to confront a challenge facing scientists at the forefront of the much-anticipated nanotechnology revolution (SN: 3/1/97, p. S14). In the nanoworld, different forces prevail, compared with our everyday, macroscopic macroscopic /mac·ro·scop·ic/ (mak?ro-skop´ik) gross (2). mac·ro·scop·ic or mac·ro·scop·i·cal adj. 1. Large enough to be perceived or examined by the unaided eye. 2. domain. Not only do intuitions of scientists and engineers fail at the nanometer scale, so do their equations. Computer models of molecular behavior offer a research alternative. On computers, researchers depict thousands to millions of individual molecules programmed to interact according to physics rules. By putting those tiny players through their paces in these so-called molecular-dynamics simulations, scientists can predict nanometer-scale phenomena that are often counterintuitive coun·ter·in·tu·i·tive adj. Contrary to what intuition or common sense would indicate: "Scientists made clear what may at first seem counterintuitive, that the capacity to be pleasant toward a fellow creature is ... . Researchers welcome the simulations, but they also need equations, which are simpler and apply more generally, to describe submicroscopic submicroscopic /sub·mi·cro·scop·ic/ (-mi?kro-skop´ik) too small to be visible with the light microscope. sub·mi·cro·scop·ic adj. happenings. Moseler and Landman have done more than just simulate the movements of molecules in nanojets--liquids forced to spurt through nozzles with orifices smaller than viruses. They also created a so-called continuum description of the jets, which ignores the molecular details. They derived this description by adding the effects of random, thermal fluctuations to existing hydrodynamic hy·dro·dy·nam·ic also hy·dro·dy·nam·i·cal adj. 1. Of or relating to hydrodynamics. 2. Of, relating to, or operated by the force of liquid in motion. equations. This modification of equations that were developed to describe macroscopic flows yielded results in line with the molecular simulations. The theorists report their findings in the Aug. 18 SCIENCE. The newfound agreement of the two approaches means "that the powerful mathematical tools developed to solve the hydrodynamic equations can be put to use in the nanoworld," comments Jens Eggers Eggers may refer to:
On the practical side, Moseler and Landman predict that nanojets may make possible tiny fuel injectors whose smaller, more uniform droplets would burn cleaner in engines. Other minuscule machines might use nanojets to insert genes into cells or to lay down wires only a few nanometers wide in electronic circuits. "The major technological challenge will be to actually build nozzles of the required size," Eggers remarks. The new study shows that nanojets ought to behave differently from macroscopic ones. For instance, because thermal fluctuations add instability to the nanojets, the tiny spurts break into droplets after going only about half as far as large-scale jets would go under corresponding conditions, Moseler says. That's why water nanojets are unlikely to become the nanoworld's answer to Super Soaker squirt guns. In another example of peculiar nanoscale effects, the spurting liquid becomes a plug. When the researchers simulated liquid propane gushing gush v. gushed, gush·ing, gush·es v.intr. 1. To flow forth suddenly in great volume: water gushing from a hydrant. 2. from a gold nanonozzle, they found that the fuel tended to stick to the outside of the nozzle, shutting off further flow. By simulating heating of the nozzle or the presence of a slick exterior coating, the researchers fixed that problem. Still, the unexpected effect highlights the unfamiliar territory of the nanoworld, Landman says. There, surface forces, such as the attractive tug between the gold atoms and the propane molecules, become much more important than they are in the macroscopic world. Next to come in the nanojet investigations are water, molten metals, silicon, and polymers, and liquid biomolecules This page aims to list articles on Wikipedia that describe particular biomolecules or types of biomolecules. This list is not necessarily complete or up to date - if you see an article that should be here but isn't (or one that shouldn't be here but is), please update the page . No one yet knows how those materials might behave, Landman notes. |
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