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    <title>Pinboard (warrenellis)</title>
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    <description>recent bookmarks from warrenellis</description>
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  </channel><item rdf:about="http://www.scientificamerican.com/article.cfm?id=from-pollen-to-polyester">
    <title>Can Bees Make Tupperware?: Scientific American</title>
    <dc:date>2012-02-06T18:12:20+00:00</dc:date>
    <link>http://www.scientificamerican.com/article.cfm?id=from-pollen-to-polyester</link>
    <dc:creator>warrenellis</dc:creator><description><![CDATA["...it’s emblematic of the fact that there’s an enormous amount we don’t know about the world around us. It makes me wonder how many other things there are like this."]]></description>
<dc:subject>eco materials sci</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:warrenellis/b:b847e1df7fa5/</dc:identifier>
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    <title>'Darker-than-black' metamaterial could lead to more efficient solar cells</title>
    <dc:date>2011-09-30T14:34:50+00:00</dc:date>
    <link>http://www.physorg.com/news/2011-09-darker-than-black-metamaterial-efficient-solar-cells.html</link>
    <dc:creator>warrenellis</dc:creator><description><![CDATA["(PhysOrg.com) -- If typical black paint absorbs about 85% of incoming light, then a newly designed metamaterial that absorbs up to 99% of incoming light may be considered “darker than black." By taking advantage of the unique light-scattering properties of metamaterials, researchers have discovered that a hyperbolic metamaterial with a corrugated surface can have a very low reflectance, which could make it promising for high-efficiency solar cells, photodetectors, and radar stealth technology."]]></description>
<dc:subject>tech solar energy materials</dc:subject>
<dc:identifier>https://pinboard.in/u:warrenellis/b:7d8af32b7099/</dc:identifier>
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