Piero Mastrorilli

Hydrogen‐Bonded Semiconducting Pigments for Air‐Stable Field‐Effect Transistors

Extensive intramolecular π-conjugation is considered to be requisite in the design of organic semiconductors. Here, two inkjet pigments, epindolidione and quinacridone, that break this design rule are explored. These molecules afford intermolecular π-stacking reinforced by hydrogen-bonding bridges. Air-stable organic field effect transistors are reported that support mobilities up to 1.5 cm(2)/Vs with T80 lifetimes comparable with the most stable reported organic semiconducting materials.

Aerobic oxidation of sulfides catalysed by cobalt(II) complexes under homogeneous and heterogeneous conditions

Abstract The Co(II)-catalysed oxidation of alkyl- and aryl-sulfides was achieved under homogeneous and heterogeneous conditions using oxygen or air as the oxidant in the presence of excess aldehyde. The reactions in the homogeneous phase were carried out using the soluble Co(acac) 2 or Co(AAEMA) 2 complexes (AAEMA − = deprotonated form of 2-(acetoacetoxy)ethyl methacrylate) whereas the heterogeneous catalytic tests were carried out using the copolymers obtained by reaction of Co(AAEMA) 2 with acrylamides. Under suitable conditions excellent conversions and very good selectivities were achieved both in homogeneous and in heterogeneous phase. The supported complexes were recyclable with negligible loss of efficiency and did not suffer from metal leaching.

Hydrogenation reactions catalysed by a supported palladium complex

Abstract The catalytic activity of the cross-linked polymer obtained by reaction of Pd(AAEMA) 2 [HAAEMA=2-(acetoacetoxy)ethyl methacrylate] and suitable acrylates as comonomers and cross-linkers was investigated in the hydrogenation reactions of substrates such as olefins, aromatic and unsaturated aldehydes, unsaturated ketones and nitrocompounds. The polymer-supported palladium was found to be active and recyclable without loss of metal.

Aerobic oxidation of aldehydes, ketones, sulfides, alcohols and alkanes catalysed by polymerizable, β-ketoesterate complexes of iron(III), nickel(II) and cobalt(II)

Abstract The oxidation of aldehydes, ketones, sulfides, alcohols and alkanes is achieved by using a soluble β-ketoesterate complex of iron (III), nickel (II) or cobalt (II) in the presence of a branched aldehyde and molecular oxygen (or air) at room temperature and atmospheric pressure (Mukaiyamas conditions).

Aerobic oxidations of unsaturated substrates under mukaiyama's conditions: The role of the metal and of the sacrificial aldehyde

Abstract Aerobic epoxidation of unsaturated substrates has been achieved under Mukaiyamas conditions (atmospheric pressure of dioxygen, in the presence of an excess of sacrificial aldehyde) with or without metal catalyst. The influence of light in non-catalysed reactions and the possible role of the aldehyde and of the metal complex in catalysed reactions are discussed. Two mechanistic pathways are proposed for Co(II) and Fe(III) [Ni(II)] catalytic centres.

Catalytic activity of a polymerizable tris(β-ketoesterate)iron(III) complex towards the oxidation of organic substrates

Abstract The facile oxidation of alkenes, aldehydes, cyclic ketones, alkanes, sulfides and alcohols is achieved by a polymerizable β-ketoesterato complex under Mukaiyamas conditions (atmospheric pressure of molecular oxygen in the presence of a sacrificial aldehyde at room temperature).

Synthesis and catalytic activity of allyl, methallyl and methyl complexes of nickel(II) and palladium(II) with biphosphine monoxide ligands: oligomerization of ethylene and copolymerization of ethylene and carbon monoxide

Abstract The syntheses of new cationic nickel complexes {[η 3 -methallyl]Ni[κ 2 P,O-Ph 2 P(X)P(O)Ph 2 ]}SbF 6 , ( 1 )–( 2 ) [X=( o -C 6 H 4 ) ( 1 ), (NH), ( 2 )] have been accomplished. The complexes oligomerize ethylene to linear α-olefins with selectivities as high as 89%. A dependence of oligomerization grade and activity on backbone geometry was shown. New cationic allyl and methyl complexes of palladium(II) [(CH 3 CN)(Me)Pd(κ 2 P,O–Ar 2 P(CH 2 ) n P(O)Ar 2 )]X [ n =1–3, X=BF 4 , Ar=C 6 H 5 ( 18 – 20 )] [ n =1, X=SbF 6 , Ar= p -tolyl ( 23 ); n =1 or 2, X=SbF 6 , Ar=C 6 H 5 ( 21 ) or ( 22 )]; [(η 3 -C 3 H 5 )Pd(κ 2 P,O-Ph 2 P(CH 2 ) n P(O)Ph 2 )]X, [ n =2, X=triflate ( 10 ), tosylate ( 13 ); n =3, X=triflate ( 11 ), tosylate ( 14 )], [(η 3 -C 3 H 5 )]Pd(κ 2 P,O-Ar 2 P(CH 2 ) n P(O)Ar 2 )]X, [ n =1, X=SbF 6 , Ar= p -tolyl ( 17 ); n =2, X=SbF 6 Ar=C 6 H 5 ( 16 )] have been synthesized in good yields. These complexes have been used in the catalytic oligomerization of ethylene, and in the catalytic alternating copolymerization of ethylene and carbon monoxide, to yield polyketones.

A Polymer-Supported β-Ketoesterate Complex of Palladium as an Efficient, Phosphane-Free, Air-Stable, Recyclable Catalyst for the Heck Reaction

The coupling between aryl iodides and bromides with olefins (Heck reaction) has been studied with a polymer-supported palladium catalyst in the presence of sodium or potassium acetate. The reactions can be performed in air without any activating phosphorus ligands and with non dried solvents. Under suitable conditions the catalyst, which exhibits high activity and selectivity, is recyclable several times with negligible leaching of metal. (© Wiley-VCH Verlag GmbH, 69451 Weinheim, Germany, 2002)

CuSiO2: an improved catalyst for the chemoselective hydrogenation of α,β-unsaturated ketones

Abstract Cu SiO 2 can be conveniently used for the quantitative hydrogenation of conjugated enones to saturated ketones, also when another olefinic bond is present in the molecule, under very mild conditions. Molecular H2 or 2-propanol can be used as hydrogen source.

Polymerization of phenylacetylene and of p-tolylacetylene catalyzed by β-dioxygenato rhodium(I) complexes in homogeneous and heterogeneous phase

AbstractThe catalytic polymerization of phenylacetylene and p-tolylacetylene under homogeneous and heterogeneous condi-tions is described. The catalysts used are either (cod)Rh(AAEMA) [cod: 1,5-cyclooctadiene (cod), AAEMA − : deproto-nated form of 2-(acetoacetoxy)ethylmethacrylate] or the supported metal complex obtained by thermal copolymerizationof (cod)Rh(AAEMA) with suitable comonomers and cross-linkers. Complexes of general formula (diene)Rh(acac) [diene:2,5-norbornadiene (nbd) or 1,5-cyclooctadiene (cod)] have also been used for comparison. High yields in poly(arylacetylene)are achieved in the homogeneous phase for both substrates using THF as solvent at room temperature even in the absenceof any co-catalyst. The use of the supported rhodium(I) catalyst facilitates the polymerization of arylacetylenes yielding, inthe case of poly(phenylacetylene) (PPA), a polymer having high stereoregularity and higher molecular weight respect to thatobtained in homogeneous phase. A new correlation between IR data and the cis-percentage of PPA is proposed and discussed.© 2002 Elsevier Science B.V. All rights reserved.