Thin jet flies two for one: double streams yield sheathed nanoballs, fibers. (This Week).Powerful electric fields can stretch liquids into narrow jets that burst into sprays of droplets. This phenomenon has revolutionized mass spectrometry mass spectrometry or mass spectroscopy Analytic technique by which chemical substances are identified by sorting gaseous ions by mass using electric and magnetic fields. , a technique for weighing a sample's constituent atoms and molecules. Meanwhile, some industries are testing the technique, known as electrospray, for such uses as making and delivering drugs. Researchers in Spain and 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. have now applied electrospray principles in a novel way, creating ultrathin ul·tra·thin adj. Very thin. liquid jets in which a stream of one liquid encloses a stream of another. When such a coaxial jet breaks up, it produces exceptionally tiny, coated droplets. Or, if the coaxial flow is allowed to quickly solidify, the technique yields coated fibers. Whether particles or fibers, the products are uniform in size, coating thickness, and other structural characteristics, says Ignacio Gonzalez Loscertales of the University of Malaga in Spain. Potential uses of the products range from encapsulated drugs and food additives, such as flavors and aromas, to insulated nanometerscale wires for ultrasmall electronic circuits (SN: 2/9/02, p. 83). "It's a very promising technique," comments Jan C.M. Marijnissen of the Technical University of Delft Delft (dĕlft), city (1994 pop. 91,941), South Holland prov., W Netherlands. It has varied industries and is noted for its ceramics (china, tiles, and pottery) known as delftware. Founded in the 11th cent. in the Netherlands. To make the coaxial jets, Loscertales and his coworkers use hollow needles up to a millimeter in diameter. The needles are nested to create concentric nozzles from which different liquids can flow. At least one of the fluids has to be electrically conductive for the technique to work. Simply pumping immiscible immiscible /im·mis·ci·ble/ (i-mis´i-b'l) not susceptible to being mixed. im·mis·ci·ble adj. Incapable of being mixed or blended, as oil and water. liquids through such nozzles creates a coaxial flow that's as wide across as the largest needle, Loscertales explains. When the researchers apply a strong electric field, the two-liquid flow narrows into a superthin jet. In the March 1 Science, the researchers report making droplets--only 150 nanometers in diameter--of salt water coated with olive oil, and vice versa VICE VERSA. On the contrary; on opposite sides. . By using an outer polymer that solidifies under ultraviolet radiation, they also fabricated hard-coated balls containing liquid ethylene glycol ethylene glycol: see glycol. ethylene glycol Simplest member of the glycol family, also called 1,2-ethanediol (HOCH2CH2OH). It is a colourless, oily liquid with a mild odour and sweet taste. . Another team at the University of Nebraska in Lincoln is adapting the method for making nanofibers. |
|
||||||||||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion