An operationally simple, and cost efficient conversion of carboxylic acids into hydroxamic acid derivatives via a high-energy mechanochemical activation is presented. This ball milling methodology was applied to a wide variety of carboxylic acids dramatically improving purification issues associated with this class of molecules, which still remain one of the main bottlenecks of classical methodologies. (Figure presented.).

An Environmentally Sustainable Mechanochemical Route to Hydroxamic Acid Derivatives / Mocci, Rita; Luca, Lidia De; Delogu, Francesco; Porcheddu, Andrea. - In: ADVANCED SYNTHESIS & CATALYSIS. - ISSN 1615-4150. - 358:19(2016), pp. 3135-3144. [10.1002/adsc.201600350]

An Environmentally Sustainable Mechanochemical Route to Hydroxamic Acid Derivatives

Luca, Lidia De;Delogu, Francesco;Porcheddu, Andrea
2016-01-01

Abstract

An operationally simple, and cost efficient conversion of carboxylic acids into hydroxamic acid derivatives via a high-energy mechanochemical activation is presented. This ball milling methodology was applied to a wide variety of carboxylic acids dramatically improving purification issues associated with this class of molecules, which still remain one of the main bottlenecks of classical methodologies. (Figure presented.).
2016
An Environmentally Sustainable Mechanochemical Route to Hydroxamic Acid Derivatives / Mocci, Rita; Luca, Lidia De; Delogu, Francesco; Porcheddu, Andrea. - In: ADVANCED SYNTHESIS & CATALYSIS. - ISSN 1615-4150. - 358:19(2016), pp. 3135-3144. [10.1002/adsc.201600350]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11388/246893
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