Special Treatment. Alexandra Goho.
by Goho, Alexandra; ProQuest Information and Learning Company.
Series: SIRS Enduring Issues 2006Article 69Science. Publisher: Science News, 2005ISSN: 1522-3264;.Subject(s): Groundwater pollution | Hazardous waste site remediation | Hazardous wastes | Iron | Nanotechnology | Palladium | PollutantsDDC classification: 050 Summary: "When it comes to the capacity of metallic nanoparticles to break down pollutants efficiently, size is everything. Because each particle is only about 10 nanometers to 100 nm across, about the width of a virus, it can zigzag its way through soil particles or flow with groundwater to hard-to-reach areas, such as those under buildings and airport runways. Also, because nanoscale particles have extremely high surface areas relative to their volumes, more of the metal is available to contact and react with contaminants." (SCIENCE NEWS) This article explains how nanotechnology may be used in the fight against groundwater and soil pollution.| Item type | Current location | Call number | Status | Date due |
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Articles Contained in SIRS Enduring Issues 2006.
Originally Published: Special Treatment, April 23, 2005; pp. 266-268.
"When it comes to the capacity of metallic nanoparticles to break down pollutants efficiently, size is everything. Because each particle is only about 10 nanometers to 100 nm across, about the width of a virus, it can zigzag its way through soil particles or flow with groundwater to hard-to-reach areas, such as those under buildings and airport runways. Also, because nanoscale particles have extremely high surface areas relative to their volumes, more of the metal is available to contact and react with contaminants." (SCIENCE NEWS) This article explains how nanotechnology may be used in the fight against groundwater and soil pollution.
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