CLERICI, ANGELO
CLERICI, ANGELO
DIPARTIMENTO DI CHIMICA, MATERIALI E INGEGNERIA CHIMICA "GIULIO NATTA"
A free radical Mannich type reaction: selective alfa-CH aminomethylation of ethers by tert-BuOOH/Ti(III) system under aqueous acidic conditions
2006-01-01 Clerici, Angelo; Cannella, Rosalba; Pastori, Nadia; Porta, Ombretta
A New One-Pot, Four-Component Synthesis of 1,2-Amino Alcohols: TiCl3/t-BuOOH-Mediated Radical Hydroxymethylation of Imines
2008-01-01 Clerici, Angelo; Ghilardi, Alessandra; Pastori, Nadia; Punta, Carlo; Porta, Ombretta
Efficient radical domino approach to b-aminoalcohols from arylamines and alcohols triggered by Ti(III)/t-BuOOH
2010-01-01 Spaccini, Raffaele; Ghilardi, Alessandra; Pastori, Nadia; Clerici, Angelo; Punta, Carlo; Porta, Ombretta
Efficient Radical Domino Approach to beta-Aminoalcohols Triggered By Titanium Salts
2010-01-01 Ghilardi, Alessandra; Prosperini, Simona; Pastori, Nadia; Clerici, Angelo; Porta, Ombretta; Punta, Carlo
Free Radical Multicomponent Synthesis of b-Aminoalcohols Mediated by TiCl4-Zn/t-BuOOH System
2012-01-01 Rossi, Bianca; Pastori, Nadia; Punta, Carlo; Clerici, Angelo
Free Radical Multicomponent Synthesis of beta-aminoalcohols and beta-aminoethers mediated by TiCl4-Zn/t-BuOOH system
2012-01-01 Pastori, Nadia; Rossi, Bianca; Clerici, Angelo; Punta, Carlo
Free Radical Multicomponent Synthesis of beta-Aminoalcohols Mediated by TiCl4-Zn/t-BuOOH System
2011-01-01 Rossi, Bianca; Pastori, Nadia; Clerici, Angelo; Punta, Carlo
Free radical version of the Strecker synthesis to alfa-aminoamides promoted by aqueous H2O2/TiCl3/HCONH2 system
2006-01-01 Cannella, Rosalba; Clerici, Angelo; W., Panzeri; Pastori, Nadia; Punta, Carlo; Porta, Ombretta
Free-Radical Addition to Ketimines Generated In Situ. New One- Pot Synthesis of Quaternary alpha-Aminoamides Promoted by a H2O2/TiCl4-Zn/HCONH2 System
2010-01-01 Pastori, Nadia; Greco, Cosimina; Clerici, Angelo; Punta, Carlo; Porta, Ombretta
Free-radical hydroxymethylation of ketimines generated in situ: a one-pot multicomponent synthesis of β,β-disubstituted-β-aminoalcohols
2012-01-01 Rossi, Bianca; Pastori, Nadia; Clerici, Angelo; Punta, Carlo
Free-radical version on the Strecker synthesis of alfa-aminoamides promoted by aqueous H2O2/Ti(III)HCONH2 system
2006-01-01 Punta, Carlo; Porta, Ombretta; Clerici, Angelo; Pastori, Nadia; Cannella, Rosalba; Greco, Cosimina
Free-radical version on the Strecker synthesis of alfa-aminoamides promoted by aqueous Ti(III)/hydrogenoperoxide/formamide system
2006-01-01 Punta, Carlo; Porta, Ombretta; Clerici, Angelo; Pastori, Nadia; Cannella, Rosalba; Greco, Cosimina
Free–Radical Synthesis of alpha,beta-Amino Alcohols Promoted by Aqueous TiCl3.
2008-01-01 Ghilardi, Alessandra; Clerici, Angelo; Pastori, Nadia; Porta, Ombretta; Punta, Carlo
Key Role of Ti(IV) in the Selective Radical-Radical Cross-Coupling Mediated by the Ingold-Fischer Effect
2008-01-01 Spaccini, Raffaele; Pastori, Nadia; Clerici, Angelo; Punta, Carlo; Porta, Ombretta
New Advances in Titanium-Mediated Free Radical Reactions
2012-01-01 Rossi, Bianca; Prosperini, Simona; Pastori, Nadia; Clerici, Angelo; Punta, Carlo
New domino radical synthesis of aminoalcohols promoted by TiCl4–Zn/t-BuOOH system: selective hydroxyalkylation of amines in alcohol or in cyclic ether cosolvents
2011-01-01 Prosperini, Simona; Pastori, Nadia; Ghilardi, Alessandra; Clerici, Angelo; Punta, Carlo
On the paradox of TiCl4 reducing power: pinacol coupling and two-carbon homologation of carbonyl compounds
2004-01-01 Clerici, Angelo; Pastori, Nadia; Porta, Ombretta
One-pot four-component reaction: aqueous TiCl3/PhN2+-mediated alkyl radical addition to imines generated in situ
2005-01-01 Cannella, Rosalba; Clerici, Angelo; Pastori, Nadia; E., Regolini; Porta, Ombretta
Reactivity of methyl mandelate-Ti(IV)-enediolate: oxidative homocoupling versus aldol and direct Mannich-type syn-diastereoselective condensation
2005-01-01 Clerici, Angelo; Pastori, Nadia; Porta, Ombretta
Reductive alkylation of acrylonitriles and acrylates
1974-01-01 Caronna, T.; Citterio, A.; Clerici, A.; Galli, R.