NatureSir Norman Lockyer Macmillan Journals Limited, 2007 - Science |
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Page 106
... silicon use temperatures that are well above silicon's melting point ( 1,414 ° C ) . Ken Sandhage , a ceramist at the Georgia Institute of Technology in Atlanta , and his colleagues have developed a method that works at a much lower ...
... silicon use temperatures that are well above silicon's melting point ( 1,414 ° C ) . Ken Sandhage , a ceramist at the Georgia Institute of Technology in Atlanta , and his colleagues have developed a method that works at a much lower ...
Page 172
... silicon requires the use of temperatures well above the silicon melting point ( ≥2,000 ° C ) 1 . Solid silicon has recently been generated directly from silica at much lower temperatures ( ≤850 ° C ) via electrochemical reduc- tion in ...
... silicon requires the use of temperatures well above the silicon melting point ( ≥2,000 ° C ) 1 . Solid silicon has recently been generated directly from silica at much lower temperatures ( ≤850 ° C ) via electrochemical reduc- tion in ...
Page 173
... silicon with two moles of magnesia ( the products of reaction ( 1 ) ) corresponds to 34.9 vol . % silicon and 65.1 vol . % magnesia14 . A uniform distribution of silicon and mag- nesia in such a product mixture should consist of co ...
... silicon with two moles of magnesia ( the products of reaction ( 1 ) ) corresponds to 34.9 vol . % silicon and 65.1 vol . % magnesia14 . A uniform distribution of silicon and mag- nesia in such a product mixture should consist of co ...
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