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Technologies for removing carbon from the atmosphere keep improving, but solutions for what to do with the carbon once it's captured are harder to come by.
The lab of Rice University materials scientist Pulickel Ajayan and collaborators developed a way to wrest the carbon from carbon dioxide and affix it to hydrogen atoms, forming methane ⎯ a valuable fuel and industrial feedstock. According to the study published in Advanced Materials, the method relies [...]
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(Nanowerk News) - Technologies for removing carbon from the atmosphere keep improving, but solutions for what to do with the carbon once it’s captured are harder to come by.
The lab of Rice University materials scientist Pulickel Ajayan and collaborators developed a way to wrest the carbon from carbon dioxide and affix it to hydrogen atoms, forming methane ⎯ a valuable fuel and industrial feedstock. According to the study published in Advanced Materials ("Cooperative Copper [...]
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The lab of Rice University materials scientist Pulickel Ajayan and collaborators developed a way to wrest the carbon from carbon dioxide and affix it to hydrogen atoms, forming methane ⎯ a valuable fuel and industrial feedstock. According to the study published in Advanced Materials, the method relies on electrolysis and catalysts developed by grafting isolated copper atoms on two-dimensional polymer templates.
“Electricity-driven carbon dioxide conversion can produce a large array [...]
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The lab of Rice University materials scientist Pulickel Ajayan and collaborators developed a way to wrest the carbon from carbon dioxide and affix it to hydrogen atoms, forming methane ⎯ a valuable fuel and industrial feedstock. According to the study published in Advanced Materials, the method relies on electrolysis and catalysts developed by grafting isolated copper atoms on two-dimensional polymer templates.
“Electricity-driven carbon dioxide conversion can produce a large array [...]
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(Nanowerk News) - Technologies for removing carbon from the atmosphere keep improving, but solutions for what to do with the carbon once it’s captured are harder to come by.
The lab of Rice University materials scientist Pulickel Ajayan and collaborators developed a way to wrest the carbon from carbon dioxide and affix it to hydrogen atoms, forming methane ⎯ a valuable fuel and industrial feedstock. According to the study published in Advanced Materials ("Cooperative Copper [...]
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Technologies for removing carbon from the atmosphere are improving, but finding solutions for what to do with the captured carbon remains a challenge.
Rice University scientists have developed a method to convert carbon dioxide into methane, a valuable fuel and industrial feedstock.
The researchers used electrolysis and catalysts with isolated copper atoms grafted onto two-dimensional polymer templates.
The catalysts enabled the reduction of carbon dioxide to methane at a high rate of [...]
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The lab of Rice University materials scientist Pulickel Ajayan and collaborators developed a way to wrest the carbon from carbon dioxide and affix it to hydrogen atoms, forming methane ⎯ a valuable fuel and industrial feedstock. According to the study published in Advanced Materials, the method relies on electrolysis and catalysts developed by grafting isolated copper atoms on two-dimensional polymer templates.
“Electricity-driven carbon dioxide conversion can produce a large array [...]
-
The lab of Rice University materials scientist Pulickel Ajayan and collaborators developed a way to wrest the carbon from carbon dioxide and affix it to hydrogen atoms, forming methane ⎯ a valuable fuel and industrial feedstock. According to the study published in Advanced Materials, the method relies on electrolysis and catalysts developed by grafting isolated copper atoms on two-dimensional polymer templates.
“Electricity-driven carbon dioxide conversion can produce a large array [...]
-
The lab of Rice University materials scientist Pulickel Ajayan and collaborators developed a way to wrest the carbon from carbon dioxide and affix it to hydrogen atoms, forming methane ⎯ a valuable fuel and industrial feedstock. According to the study published in Advanced Materials, the method relies on electrolysis and catalysts developed by grafting isolated copper atoms on two-dimensional polymer templates.
“Electricity-driven carbon dioxide conversion can produce a large array [...]
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استون، یک ورودی کلیدی برای صنایع شیمیایی، معمولاً توسط یک فرآیند پیچیده و خطرناک تولید می شود.
استون یک ورودی صنایع شیمیایی ضروری است و در ساخت طیف گسترده ای از محصولات مانند چسب ها، آنتی بیوتیک ها، اجزای الکترونیکی، حلال ها و پاک کننده ها، جوهرها و ویتامین ها و غیره [...]
