Versione delle 00:16, 26 nov 2017 modifica 190.161.34.95 (discussione) Nessun oggetto della modifica		Versione delle 19:35, 21 set 2018 modifica Grasso Luigi (discussione \| contributi) 18 685 modifiche Nessun oggetto della modifica
Riga 1: ~~{{Navbox~~ Il '''riarrangiamento di Fries''' o '''reazione di Fries''', che prende il nome dal chimico tedesco [[Karl Theophil Fries]], è una [[reazione di riarrangiamento]] di un estere fenolico a un [[idrossile\|idrossi]] [[arile]] [[chetone]] tramite [[catalisi]] di un [[acido di Lewis]].<ref>{{cite journal \| title = Über Homologe des Cumaranons und ihre Abkömmlinge \| author = [[Karl Theophil Fries\|Fries, K.]] ; Finck, G. \| journal = [[Chemische Berichte]] \| volume = 41 \| issue = 3 \| pages = 4271–4284 \| year = 1908 \| url = \| doi = 10.1002/cber.190804103146}}</ref><ref>{{cite journal \| title = Über ein Kondensationsprodukt des Cumaranons und seine Umwandlung in Oxindirubin \|author1=Fries, K. \|author2=Pfaffendorf, W. \| journal = [[Chemische Berichte]] \| volume = 43 \| issue = 1 \| pages = 212–219 \| year = 1910 \| url = \| doi = 10.1002/cber.19100430131}}</ref><ref>March, J. ''Advanced Organic Chemistry'', 3rd Ed.; John Wiley & Sons: Chichester, 1985; S. 499ff.</ref><ref>Blatt, A. H. [[Organic Reactions\|''Org. React.'']] '''1942''', ''1''.</ref> ~~\|name = Club calcistici vincitori della Coppa Sudamericana~~ ~~\|state = collapsed~~ [[Image:Fries-Umlagerung 1.svg\|600px\|center\|Riarrangiamento di Fries]] ~~\|title = Club calcistici [[Coppa Sudamericana\|<span style="color:#FFFFFF">vincitori della Coppa Sudamericana</span>]] - Cronologia~~ ~~\|titlestyle = background-color:#2E8B57;color:#FFFFFF;~~ Implica la migrazione di un gruppo [[acile]] di un estere [[fenolo\|fenolico]] nell'anello [[arile]]. La reazione è [[Pattern di sostituzione in idrocarburi aromatici\|orto e para selettiva]] e uno dei due prodotti si ottiene cambiando le condizioni di reazione, come la [[temperatura]] e il [[solvente]]. ~~\|group1 = <span style="color:#000000">Coppa Sudamericana</span>~~ ~~\|list1 =~~ == Meccanismo della reazione == ~~{{tutto attaccato\|{{Bandiera\|ARG}} [[Club Atlético San Lorenzo de Almagro\|San Lorenzo]] ([[Coppa Sudamericana 2002\|2002]])}}{{·}}~~ Despite many efforts, a definitive [[reaction mechanism]] for the Fries rearrangement has not been determined. Evidence for inter- and [[intramolecular]] mechanisms have been obtained by [[Crossover experiment (chemistry)\|crossover experiments]] with mixed reactants. ~~{{tutto attaccato\|{{Bandiera\|PER}} [[Club Sportivo Cienciano\|Cienciano]] ([[Coppa Sudamericana 2003\|2003]])}}{{·}}~~ The Reaction progress is not dependent on [[solvent]] or [[Substrate (chemistry)\|substrate]]. A widely accepted mechanism involves a [[carbocation]] intermediate. ~~{{tutto attaccato\|{{Bandiera\|ARG}} [[Club Atlético Boca Juniors\|Boca Juniors]] ([[Coppa Sudamericana 2004\|2004]])}}{{·}}~~ ~~{{tutto attaccato\|{{Bandiera\|ARG}} [[Club Atlético Boca Juniors\|Boca Juniors]] ([[Coppa Sudamericana 2005\|2005]])}}{{·}}~~ In the first reaction step a [[Lewis acid]] for instance [[aluminium chloride]] {{chem\|AlCl\|3}} co-ordinates to the [[carbonyl]] oxygen atom of the [[acyl]] group. This oxygen atom is more [[electron]] rich than the [[phenol]]ic oxygen atom and is the preferred [[Lewis base]]. This interaction [[Chemical polarity\|polarizes]] the [[covalent bond\|bond]] between the acyl residue and the phenolic oxygen atom and the aluminium chloride group rearranges to the phenolic oxygen atom. This generates a free [[acylium]] [[carbocation]] which reacts in a classical [[electrophilic aromatic substitution]] with the aromatic ring. The abstracted proton is released as [[hydrochloric acid]] where the chlorine is derived from aluminium chloride. The orientation of the substitution reaction is temperature dependent. ~~{{tutto attaccato\|{{Bandiera\|MEX}} [[Club de Fútbol Pachuca\|Pachuca]] ([[Coppa Sudamericana 2006\|2006]])}}{{·}}~~ ~~{{tutto attaccato\|{{Bandiera\|ARG}} [[Arsenal Fútbol Club\|Arsenal]] ([[Coppa Sudamericana 2007\|2007]])}}{{·}}~~ [[image:Fries-Umlagerung 2a.svg\|600px\|center\|Riarrangiamento di Fries parte prima]] ~~{{tutto attaccato\|{{Bandiera\|BRA}} [[Sport Club Internacional\|Internacional]] ([[Coppa Sudamericana 2008\|2008]])}}{{·}}~~ ~~{{tutto attaccato\|{{Bandiera\|ECU}} [[Liga Deportiva Universitaria de Quito\|LDU Quito]] ([[Coppa Sudamericana 2009\|2009]])}}{{·}}~~ A low reaction temperature favors [[Arene substitution patterns\|para substitution]] and with high temperatures the [[Arene substitution patterns\|ortho]] product prevails, this can be rationalised as exhibiting classic [[Thermodynamic versus kinetic reaction control]] as the ortho product can form a more stable bidentate complex with the Aluminium.<ref>{{cite book \|title= Aromatic Chemistry (Oxford Chemistry Primers)\|last= Sainsbury\|first= Malcolm\|year= 1992\|publisher= Oxford University Press\|isbn=0198556748 \|page= 65}}</ref> Formation of the ortho product is also favoured in non-polar solvents; as the solvent polarity increases, the ratio of the para product also increases.<ref>{{cite book \|title= Strategic Applications of Named Reactions in Organic Synthesis: Background and Detailed Mechanisms\|last= Kürti\|first= László\|last2= Czakó\|first2= Barbara\|year= 2005\|publisher= Elsevier Academic Press\|isbn= 0123694833\|page= 181}}</ref> ~~{{tutto attaccato\|{{Bandiera\|ARG}} [[Club Atlético Independiente\|Independiente]] ([[Coppa Sudamericana 2010\|2010]])}}{{·}}~~ ~~{{tutto attaccato\|{{Bandiera\|CHL}} [[Club de Fútbol Profesional de la Universidad de Chile\|Universidad de Chile]] ([[Coppa Sudamericana 2011\|2011]])}}{{·}}~~ Sostituzione ''para'': ~~{{tutto attaccato\|{{Bandiera\|BRA}} [[São Paulo Futebol Clube\|São Paulo]] ([[Coppa Sudamericana 2012\|2012]])}}{{·}}~~ ~~{{tutto attaccato\|{{Bandiera\|ARG}} [[Club Atlético Lanús\|Lanús]] ([[Coppa Sudamericana 2013\|2013]])}}{{·}}~~ [[image:Fries-Umlagerung 3.svg\|600px\|center\|Riarrangiamento di Fries parte prima]] ~~{{tutto attaccato\|{{Bandiera\|ARG}} [[Club Atlético River Plate\|River Plate]] ([[Coppa Sudamericana 2014\|2014]])}}{{·}}~~ ~~{{tutto attaccato\|{{Bandiera\|COL}} [[Santa Fe Corporación Deportiva\|Santa Fe]] ([[Coppa Sudamericana 2015\|2015]])}}{{·}}~~ Sostituzione ''orto'': ~~{{tutto attaccato\|{{Bandiera\|BRA}} [[Associação Chapecoense de Futebol\|Chapecoense]] ([[Coppa Sudamericana 2016\|2016]])}}~~ ~~}}<noinclude>~~ [[image:Fries-Umlagerung 4.svg\|400px\|center\|Riarrangiamento di Fries parte prima]] ~~[[Categoria:Template di navigazione - competizioni internazionali di calcio per club\| ]]~~ ~~</noinclude>~~ ==Applicazioni== [[Phenol]]s react to form [[ester]]s instead of hydroxyarylketones when reacted with [[acyl halide]]s under [[Friedel-Crafts acylation]] conditions. Therefore, this reaction is of industrial importance for the synthesis of hydroxyarylketones, which are important intermediates for several pharmaceuticals. As an alternative to [[aluminium chloride]], other [[Lewis acid]]s such as [[boron trifluoride]] and [[bismuth]] [[triflate]] or strong protic acids such as [[hydrogen fluoride]] and [[methanesulfonic acid]] can also be used. In order to avoid the use of these corrosive and environmentally unfriendly [[catalyst]]s altogether research into alternative [[heterogeneous catalysis\|heterogeneous]] catalysts is actively pursued. == Limiti== In all instances only [[ester]]s can be used with stable acyl components that can withstand the harsh conditions of the Fries rearrangement. If the aromatic or the acyl component is heavily substituted then the [[chemical yield]] will drop due to [[steric hindrance\|steric]] constraints. Deactivating meta-directing groups on the benzene group will also have an adverse effect as can be expected for a [[Friedel-Crafts reaction\|Friedel–Crafts acylation]]. == Riarrangiamento foto-Fries == In addition to the ordinary thermal phenyl ester reaction a so-called [[photochemistry\|photochemical]] '''photo-Fries rearrangement''' exists<ref>Bellus, D. ''Advances in Photochemistry''; John Wiley & Sons: Chichester, 1971; Vol. 8, 109–159.</ref> that involves a [[radical (chemistry)\|radical]] [[reaction mechanism]]. This reaction is also possible with deactivating [[substituent]]s on the aromatic group. Because the yields are low this procedure is not used in commercial production. However, photo-Fries rearrangement may occur naturally, for example when a plastic bottle made of polycarbonate (PC) is exposed to the sun, particularly to UV light at a wavelength of about 310 nm, if the plastic has been heated to 40° Celsius or above (as might occur in a car with windows closed on a hot summer day). In this case, photolysis of the ester groups would lead to leaching of phthalate from the plastic.<ref>Norma Searle, "Environmental effects on polymeric materials," pp. 313–358, in ''Plastics and the Environment'', edited by Anthony Andrade, Wiley, 2003.</ref> [[Image:Fries rearrangement (photo).svg\|center\|600px\|Photo Fries rearrangement]] == Riarrangiamento di Fries anionico == In addition to Lewis acid and photo-catalysed Fries rearrangements, there also exists an anionic Fries rearrangement. In this reaction, the aryl ester undergoes ortho-metalation with a strong base, which then rearranges in a nucleophilic attack mechanism. == Voci correlate == Reazione del tipo [[Reazione di Friedel-Crafts\|alchilazione di Friedel–Crafts]]: [[Riarrangiamento di Hofmann-Martius]] * Riarrangiamento di Fries *[[Riarrangiamento di Fischer-Hepp]] [[Reazione di Duff]] == Note == {{reflist}} {{portale\|chimica}}

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