A sonoelectrochemical Fenton process for efficient synthesis of tetramethyladipic acid from pivalic acid

Tetramethyladipic acid (TMAA), a starting monomer for several technically important polymers (polyester resins and polyamide fibres) is synthesised by direct carbon-carbon bond formation between the saturated primary carbon atoms of pivalic acid (PA) using a sonoelectrochemical Fenton process. Throu...

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Veröffentlicht in:	Green chemistry : an international journal and green chemistry resource : GC 2001, Vol.3 (3), p.126-130
Hauptverfasser:	Bremner, David H., Burgess, Arthur E., Li, Feng-Bin
Format:	Artikel
Sprache:	eng
Schlagworte:	Byproducts Carbon Dissolution Electric charge Iron Polyamide resins Synthesis Ultrasound
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container_title	Green chemistry : an international journal and green chemistry resource : GC
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creator	Bremner, David H. Burgess, Arthur E. Li, Feng-Bin
description	Tetramethyladipic acid (TMAA), a starting monomer for several technically important polymers (polyester resins and polyamide fibres) is synthesised by direct carbon-carbon bond formation between the saturated primary carbon atoms of pivalic acid (PA) using a sonoelectrochemical Fenton process. Through controlled electrochemical dissolution assisted by ultrasound radiation, Fe ions are produced from metallic iron in the reaction mixture. The effects of ultrasound with electrolysis, temperature, amount of substrate present, reagent concentration, solution acidity and quantity of electric charge have been examined. Under suitable conditions, the synthesis yield based on initial PA present, hydrogen peroxide used and amount of iron dissolved reached 34, 40 and 75%, respectively and less by-product was observed. These results show significant improvement in terms of direct cost savings by omission of separate preparation of a ferrous salt, fewer side reactions during the dimerisation process, less waste, easier purification; increased efficiency due to recycling of iron ions and improved reactivity of fresh Fe ions. All of these advantages make this sonoelectrochemical approach a much more efficient and environmentally cleaner option.
doi_str_mv	10.1039/b010123k
format	Article
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Through controlled electrochemical dissolution assisted by ultrasound radiation, Fe ions are produced from metallic iron in the reaction mixture. The effects of ultrasound with electrolysis, temperature, amount of substrate present, reagent concentration, solution acidity and quantity of electric charge have been examined. Under suitable conditions, the synthesis yield based on initial PA present, hydrogen peroxide used and amount of iron dissolved reached 34, 40 and 75%, respectively and less by-product was observed. These results show significant improvement in terms of direct cost savings by omission of separate preparation of a ferrous salt, fewer side reactions during the dimerisation process, less waste, easier purification; increased efficiency due to recycling of iron ions and improved reactivity of fresh Fe ions. 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Through controlled electrochemical dissolution assisted by ultrasound radiation, Fe ions are produced from metallic iron in the reaction mixture. The effects of ultrasound with electrolysis, temperature, amount of substrate present, reagent concentration, solution acidity and quantity of electric charge have been examined. Under suitable conditions, the synthesis yield based on initial PA present, hydrogen peroxide used and amount of iron dissolved reached 34, 40 and 75%, respectively and less by-product was observed. These results show significant improvement in terms of direct cost savings by omission of separate preparation of a ferrous salt, fewer side reactions during the dimerisation process, less waste, easier purification; increased efficiency due to recycling of iron ions and improved reactivity of fresh Fe ions. 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Through controlled electrochemical dissolution assisted by ultrasound radiation, Fe ions are produced from metallic iron in the reaction mixture. The effects of ultrasound with electrolysis, temperature, amount of substrate present, reagent concentration, solution acidity and quantity of electric charge have been examined. Under suitable conditions, the synthesis yield based on initial PA present, hydrogen peroxide used and amount of iron dissolved reached 34, 40 and 75%, respectively and less by-product was observed. These results show significant improvement in terms of direct cost savings by omission of separate preparation of a ferrous salt, fewer side reactions during the dimerisation process, less waste, easier purification; increased efficiency due to recycling of iron ions and improved reactivity of fresh Fe ions. All of these advantages make this sonoelectrochemical approach a much more efficient and environmentally cleaner option.</abstract><doi>10.1039/b010123k</doi><tpages>5</tpages></addata></record>
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source	Royal Society of Chemistry Journals Archive (1841-2007); Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects	Byproducts Carbon Dissolution Electric charge Iron Polyamide resins Synthesis Ultrasound
title	A sonoelectrochemical Fenton process for efficient synthesis of tetramethyladipic acid from pivalic acid
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