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from the oooh!-grabbed-by-the-electrons dept.
Chemists at The University of Texas at Arlington are developing novel ways to use metal ions to activate simple hydrocarbons present in natural gas or petroleum products to produce more complex molecules valuable to the chemical and pharmaceutical industries.
The research also involves developing a new portable, easy-to-use sensor to detect the presence of some specific gaseous hydrocarbons in plant product storage facilities. Current technology is more complex, expensive and not portable.
"We want to develop a new class of catalysts to do difficult chemistry, like activating inert molecules and converting them to more useful products," said Rasika Dias, UTA Distinguished Professor of Chemistry and Biochemistry and leader of the project. "Then we will study the properties of the reactive intermediates –— chemical substances produced during the conversion process, which usually involves a series of steps. Finally, we will also develop the new portable sensor for specific gaseous molecules like ethylene, which is a plant hormone, in a specific environment."
The project, supported by a three-year grant from the Welch Foundation, involves using highly fluorinated supporting ligands – molecules that bind to a central metal atom – on metals such as copper, silver and gold, to generate new types of reactive metal sites, Dias said.
Fluorine is the most electronegative of the elements, meaning it tends to "grab" electrons from other bonded atoms, including metal ions. As a result, the metal ions attached to fluorinated support ligands tend to go after or attract nearby molecules in search of electrons and activate them in the process.
During the past few years, Dias' laboratory has developed several highly fluorinated nitrogen-based ligands and utilized them successfully in the stabilization of reactive metal-containing species in bottleable form. Some of the metallic systems serve as catalysts to prepare pharmaceutical intermediates from cheap and widely available hydrocarbons and to activate oxygen for oxidation chemistry.
"This project is an attempt to extend this work to multi-metallic systems that are more relevant to heterogeneous catalysis and industrial processes," Dias said. "Fluorinated ligands, such as Teflon, are uniquely suitable for this work because they are robust and will produce long-lasting catalysts with highly active metal sites."
(Score: 0) by Anonymous Coward on Monday September 05 2016, @05:39PM
(Score: 2) by fnj on Monday September 05 2016, @07:05PM
What the hell would you want to take the hydrogen out of gasoline for? Gasoline is the perfect energy package already. There is a greater mass of hydrogen in one liter of gasoline than there is in one liter of liquid hydrogen. And that is not even counting the carbon content, which further increases the energy content.
(Score: 1, Touché) by Anonymous Coward on Monday September 05 2016, @10:31PM
It's as though you didn't finish reading the comment.
Problem is current hydrocarbon fuel cells that can produce kilowatts of power don't tend to fit in cars