Too much nanotechnology may be killing beneficial bacteria

User rating: 4.6 / 5 after 16 vote(s)

Too much of a good thing could be harmful to the environment. For years, scientists have known about silver’s ability to kill harmful bacteria and, recently, have used this knowledge to create consumer products containing silver nanoparticles. Now, a University of Missouri researcher has found that silver nanoparticles also may destroy benign bacteria that are used to remove ammonia from wastewater treatment systems.


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All News summaries for April 29, 2008

Nanotechnology in reverse uses cell to calibrate tools

8 hours ago | User rating: not rated yet
Nanotechnology researchers at UC Davis have shown that they can use a red blood cell to calibrate a sensitive instrument, an atomic force microscope.

UCSD nanostructures will raise thin-film solar cell efficiency

8 hours ago | User rating: not rated yet
Thanks to nanostructures that scatter and channel light, University of California, San Diego electrical engineers are working toward thin-film “single junction” solar cells with the potential for nearly 45 percent sunlight-to-electricity ...

Public Invited to See Nanosoccer Robots in Action in Pittsburgh

May 14, 2008 | User rating: not rated yet
Nanosoccer returns to the field later this month, when the National Institute of Standards and Technology hosts for the second time the world’s most Lilliputian sport. Three student teams will participate ...

Spin Control: New Technique Sorts Nanotubes by Length

May 14, 2008 | User rating: not rated yet
Researchers at the National Institute of Standards and Technology (NIST) have reported a new technique to sort batches of carbon nanotubes by length using high-speed centrifuges. Many potential applications ...

Nanowires may boost solar cell efficiency, engineers say

May 14, 2008 | User rating: not rated yet
University of California, San Diego electrical engineers have created experimental solar cells spiked with nanowires that could lead to highly efficient thin-film solar cells of the future.
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