Your search keyword '"Giulio, Bresciani"' showing total 17 results

1. 4‐Aryl‐2‐Imino‐1,3‐Dithiolanes from the Room Temperature Coupling of Sodium Dithiocarbamates with Sulfonium Salts

Author

Giulio Bresciani, Fabio Marchetti, Gianluca Ciancaleoni, and Guido Pampaloni

Subjects

Carbon disulfide, Chemistry, Sulfonium, Sodium, Aryl, Cyclization, Dithiocarbamates, Dithiolanes, Synthetic methods, Organic Chemistry, chemistry.chemical_element, Coupling (electronics), chemistry.chemical_compound, Polymer chemistry, Physical and Theoretical Chemistry

Published

2021

2. Total- and semi-bare noble metal nanoparticles@silica core@shell catalysts for hydrogen generation by formic acid decomposition

Author

Valerio Voliani, Mauro Gemmi, Marco Santucci, Andrea Griesi, Guido Pampaloni, Maria Laura Ermini, Fabio Marchetti, and Giulio Bresciani

Subjects

Materials science, Formic acid, 02 engineering and technology, engineering.material, 010402 general chemistry, 01 natural sciences, Catalysis, Biomaterials, chemistry.chemical_compound, Dehydrogenation, Waste Management and Disposal, Chemical decomposition, Nanomaterials, Hydrogen production, Renewable Energy, Sustainability and the Environment, Gold, Hydrogen, Silica, 021001 nanoscience & nanotechnology, Nanomaterial-based catalyst, 0104 chemical sciences, Hydrogen carrier, chemistry, Chemical engineering, Ceramics and Composites, engineering, Noble metal, 0210 nano-technology

Abstract

Catalysts are involved in a number of established and emerging chemical processes as well as in environmental remediation and energy conversion. Nanoparticles (NPs) can offer several advantages over some conventional catalysts, such as higher efficiency and selectivity. Nowadays, versatile and scalable nanocatalysts that combine activity and stability are still lacking. Here, we report a comprehensive investigation on the production and characterization of hybrid nano-architectures bringing a partial or total bare surface together with their catalytic efficiency evaluation on, as a proof-of-concept, the formic acid decomposition reaction. In this regard, formic acid (FA) is a convenient and safe hydrogen carrier with appealing features for mobile applications, fuel cells technologies, petrochemical processes and energetic applications. Thus, the design of robust catalysts for FA dehydrogenation is strongly demanded. Due to this, we produced and evaluated nano-architectures with various equilibrium between the size-increase of the active part and the barer catalytic surface. Overall, this work paves the way for the development of new approaches for green energy storage and safe delivery.

Published

2021

3. Bypassing the Inertness of Aziridine/CO 2 Systems to Access 5‐Aryl‐2‐Oxazolidinones: Catalyst‐Free Synthesis Under Ambient Conditions

Author

Stefano Zacchini, Guido Pampaloni, Emanuele Antico, Fabio Marchetti, Giulio Bresciani, Gianluca Ciancaleoni, Bresciani G., Antico E., Ciancaleoni G., Zacchini S., Pampaloni G., and Marchetti F.

Subjects

Green chemistry, Reaction mechanism, aziridine, General Chemical Engineering, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Catalysis, Adduct, chemistry.chemical_compound, carbon dioxide activation, catalyst free organic synthesi, Environmental Chemistry, General Materials Science, aziridines, catalyst free organic synthesis, oxazolidinones, sustainability, Aryl, oxazolidinone, Nuclear magnetic resonance spectroscopy, Aziridine, 021001 nanoscience & nanotechnology, Combinatorial chemistry, 0104 chemical sciences, General Energy, chemistry, Amine gas treating, 0210 nano-technology

Abstract

The development of sustainable synthetic routes to access valuable oxazolidinones via CO2 fixation is an active research area, and the aziridine/carbon dioxide coupling has aroused a considerable interest. This reaction is featured by a high activation barrier, so to require a catalytic system, and may present some other critical issues. Here, we describe the straightforward gram-scale synthesis of a series of 5-​aryl-​2-oxazolidinones at ambient temperature and atmospheric CO2 pressure, in the absence of any catalyst/co-catalyst. The key to this innovative procedure consists in the direct transfer of the pre-formed amine/CO2 adduct (carbamate) to common aziridine precursors (dimethylsulfonium salts), replacing the classical sequential addition of amine (intermediate isolation of aziridine) and then CO2. The reaction mechanism has been investigated by NMR studies and DFT calculations applied to model cases.

Published

2020

4. A Comprehensive Analysis of the Metal–Nitrile Bonding in an Organo-Diiron System

Author

Guido Pampaloni, Gianluca Ciancaleoni, Fabio Marchetti, Stefano Zacchini, Giulio Bresciani, Lorenzo Biancalana, Bresciani G., Biancalana L., Pampaloni G., Zacchini S., Ciancaleoni G., and Marchetti F.

Subjects

Nitrile, coordination chemistry, nitrile ligand, metal–nitrile bonding, π-back-donation, diiron complexes, DFT calculations, Imine, Pharmaceutical Science, DFT calculation, Organic chemistry, Diiron complexe, Article, Analytical Chemistry, Coordination complex, Metal, chemistry.chemical_compound, QD241-441, Drug Discovery, Physical and Theoretical Chemistry, Bond energy, chemistry.chemical_classification, Nuclear magnetic resonance spectroscopy, Crystallography, chemistry, Chemistry (miscellaneous), visual_art, visual_art.visual_art_medium, Coordination chemistry, Diiron complexes, Metal–nitrile bonding, Nitrile ligand, Molecular Medicine, Amine gas treating, Single crystal

Abstract

Nitriles (N≡CR) are ubiquitous in coordination chemistry, yet literature studies on metal–nitrile bonding based on a multi-technique approach are rare. We selected an easily-available di-organoiron framework, containing both π-acceptor (CO, aminocarbyne) and donor (Cp = η5−C5H5) ligands, as a suitable system to provide a comprehensive description of the iron–nitrile bond. Thus, the new nitrile (2–12)CF3SO3 and the related imine/amine complexes (8–9)CF3SO3 were synthesized in 58–83% yields from the respective tris-carbonyl precursors (1a–d)CF3SO3, using the TMNO strategy (TMNO = trimethylamine-N-oxide). The products were fully characterized by elemental analysis, IR (solution and solid state) and multinuclear NMR spectroscopy. In addition, the structures of (2)CF3SO3, (3)CF3SO3, (5)CF3SO3 and (11)CF3SO3 were ascertained by single crystal X-ray diffraction. Salient spectroscopic data of the nitrile complexes are coherent with the scale of electron-donor power of the R substituents; otherwise, this scale does not match the degree of Fe → N π-back-donation and the Fe–N bond energies, which were elucidated in (2–7)CF3SO3 by DFT calculations.

Published

2021

5. Diethylammonium iodide as catalyst for the metal-free synthesis of 5-aryl-2-oxazolidinones from aziridines and carbon dioxide

Author

Guido Pampaloni, Marco Bortoluzzi, Giulio Bresciani, and Fabio Marchetti

Subjects

chemistry.chemical_classification, Settore CHIM/03 - Chimica Generale e Inorganica, 010405 organic chemistry, Aryl, Organic Chemistry, Iodide, Halide, Aziridine, 010402 general chemistry, 01 natural sciences, Biochemistry, Combinatorial chemistry, Coupling reaction, 0104 chemical sciences, Catalysis, Solvent, chemistry.chemical_compound, chemistry, Physical and Theoretical Chemistry, Selectivity

Abstract

The catalytic potential of ammonium halide salts was explored in the coupling reaction of a model aziridine with carbon dioxide, highlighting the superior activity of [NH2Et2]I. Then, working at room temperature, atmospheric CO2 pressure and in the absence of solvent, the [NH2Et2]I-catalyzed synthesis of a series of 5-aryl-2-oxazolidinones was accomplished in good to high yields and excellent selectivity, from 2-aryl-aziridines with N-methyl or N-ethyl groups. NMR studies and DFT calculations outlined the pivotal role of both the diethylammonium cation and the iodide anion. The proposed method represents a convenient choice for obtaining a limited number of valuable molecules for which more complex and more expensive catalytic systems have been reported even in recent years.

Published

2021

6. Synthesis of α-alkylidene cyclic carbonatesviaCO2fixation under ambient conditions promoted by an easily available silver carbamate

Author

Guido Pampaloni, Claudia Ghelarducci, Marco Bortoluzzi, Fabio Marchetti, and Giulio Bresciani

Subjects

Settore CHIM/03 - Chimica Generale e Inorganica, Carbamate, medicine.medical_treatment, Carbon fixation, General Chemistry, Catalysis, chemistry.chemical_compound, Carboxylation, chemistry, Propargyl, Materials Chemistry, medicine, Organic chemistry, Silver oxide

Abstract

The simple and cost-effective compound [Ag(O2CNEt2)], in combination with PPh3, works as an effective catalytic precursor in the carboxylation of propargyl alcohols at ambient temperature and atmospheric CO2 pressure, and in most cases under solventless conditions. The silver carbamate revealed a better performance than commercial silver oxide, Ag2O, and allowed to obtain a series of α-alkylidene cyclic carbonates in high yields.

Published

2021

7. Non-precious metal carbamates as catalysts for the aziridine/CO2coupling reaction under mild conditions

Author

Guido Pampaloni, Fabio Marchetti, Stefano Zacchini, Giulio Bresciani, Bresciani G., Zacchini S., Marchetti F., and Pampaloni G.

Subjects

aziridine, Niobium, chemistry.chemical_element, Halide, Large series, carbon dioxide, Aziridine, Combinatorial chemistry, Coupling reaction, Catalysis, Inorganic Chemistry, Metal, chemistry.chemical_compound, chemistry, visual_art, Non precious metal, visual_art.visual_art_medium, niobium, metal carbamate

Abstract

The catalytic potential of a large series of easily available metal carbamates (based on thirteen different non-precious metal elements) was explored for the first time in the coupling reaction between 2-aryl-aziridines and carbon dioxide, working under solventless and ambient conditions and using tetraalkylammonium halides as co-catalysts. The straightforward synthesis of novel [NbCl3(O2CNEt2)2], NbCl, and [NbBr3(O2CNEt2)2], NbBr, is reported. The niobium complex NbCl, in combination with NBu4I, emerged as the best catalyst of the overall series to convert aziridines with small N-alkyl substituents into the corresponding 5-aryl-oxazolidin-2-ones.

Published

2021

8. Niobium(V) oxido tris-carbamate as easily available and robust catalytic precursor for the selective sulfide to sulfone oxidation

Author

Gianluca Ciancaleoni, Mario Gemmiti, Guido Pampaloni, Giulio Bresciani, Fabio Marchetti, and Marcello Crucianelli

Subjects

chemistry.chemical_classification, Sulfide, Ligand, Process Chemistry and Technology, Aryl, Niobium and tantalum, Homogeneous catalysis, Hydrogen peroxide, Catalysis, Sulfone, Metal carbamates, Sulfide oxidation, chemistry.chemical_compound, chemistry, Catalytic cycle, Homogeneous catalysis Sulfide oxidation Hydrogen peroxide Niobium and tantalum Metal carbamates, Polymer chemistry, Physical and Theoretical Chemistry, Derivative (chemistry), Alkyl

Abstract

The oxidation of the sulfide function promoted by a variety of vanadium compounds has been largely explored, whereas the use of homogeneous catalytic systems based on the heavier group 5 metals remains less explored. We report the use of easily available niobium and tantalum carbamates, i.e. [M(O2CNMe2)5] (M = Nb, 1; M = Ta, 2), [Nb(O2CNMe2)4], 3, [NbO(O2CNEt2)3], 4, and [NbCl3(O2CNEt2)2], 5, as effective catalysts for the conversion of a series of alkyl aryl and aromatic sulfides into the corresponding sulfones. NMR investigations on the performant niobium catalyst 4 unexpectedly revealed the substantial stability of this compound in the protic catalytic environment, and a plausible catalytic cycle was obtained by DFT studies. The two active catalytic species, i.e. 4 and its minor mono-methoxide derivative, presumably interconvert to each other exploiting the versatile coordination of the carbamato ligand.

Published

2021

9. Trapping carbamates of α-Amino acids: One-Pot and catalyst-free synthesis of 5-Aryl-2-Oxazolidinonyl derivatives

Author

Stefano Zacchini, Fabio Marchetti, Giulio Bresciani, Luca Famlonga, Guido Pampaloni, Bresciani G., Zacchini S., Famlonga L., Pampaloni G., and Marchetti F.

Subjects

Atmospheric pressure CO2, Carboxylic acid, Carbonation, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Catalysis, chemistry.chemical_compound, Deprotonation, Atmospheric pressure CO, 2, fixation, Carbamate, Natural amino acid, New synthetic routes, Oxazolidinone, Chemical Engineering (miscellaneous), Organic chemistry, Waste Management and Disposal, chemistry.chemical_classification, Chemistry, Process Chemistry and Technology, Aryl, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Amino acid, Esterification reaction, 0210 nano-technology, New synthetic route, Conjugate

Abstract

Carbonation of natural α-amino acids in water and subsequent cyclization with (2-bromo-1-arylethyl)dimethylsulfonium bromides led selectively to a family of 2-oxazolidinonyl derivatives, which were isolated without the needing of purification. Analogous conjugation of the 2-oxazolidinone skeleton with amino acids was previously realized by complicated and narrow-scope routes, whereby the amino acid core is built stepwise. Deprotonation of some of the products afforded the corresponding water-soluble carboxylates, while a straightforward, proof of concept esterification reaction of the carboxylic acid group yielded a menthol-alanine-oxazolidinone conjugate.

Published

2021

10. Synthesis and study of the stability of amidinium/guanidinium carbamates of amines and α-amino acids

Author

Fabio Marchetti, Cinzia Chiappe, Giulio Bresciani, Lorenzo Biancalana, and Guido Pampaloni

Subjects

chemistry.chemical_classification, Sarcosine, amidinium, Moisture, Atmospheric pressure, Solid-state, carbamates, 02 engineering and technology, General Chemistry, carbamates, amidinium, guanidinium, stability, ammonium, stability, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Catalysis, 0104 chemical sciences, Amino acid, ammonium, chemistry.chemical_compound, chemistry, guanidinium, Materials Chemistry, Organic chemistry, 0210 nano-technology

Abstract

Thermally stable amidinium/guanidinium N,N-dialkylcarbamates, including vacuum stable compounds, have been prepared, and then isolated in the solid state, by reaction of tetramethylguanidine (TMG) or 1,8-diazabicyclo[5.4.0]undec-7-ene (DBU) with secondary amines under atmospheric pressure of CO2. The same method has been successfully applied to α-amino acids, thus the corresponding carbamates of sarcosine, L-proline and L-phenylalanine have been obtained. All the products are highly moisture sensitive, and have been characterized by analytical and spectroscopic (IR, multinuclear NMR) techniques.

Published

2017

11. Metal N,N-dialkylcarbamates as easily available catalytic precursors for the carbon dioxide/propylene oxide coupling under ambient conditions

Author

Guido Pampaloni, Alessio Gabbani, Francesco Pineider, Fabio Marchetti, Giulio Bresciani, and Giorgia Rizzi

Subjects

Materials science, Inorganic chemistry, Main group elements, 010402 general chemistry, 7. Clean energy, 01 natural sciences, Catalysis, Metal, chemistry.chemical_compound, Chemical Engineering (miscellaneous), Coupling (piping), Metal carbamates, Propylene oxide, Homoleptic, Waste Management and Disposal, Carbamates, Carbon dioxide, Cyclic carbonates, 010405 organic chemistry, Process Chemistry and Technology, 0104 chemical sciences, chemistry, Main group element, visual_art, Propylene carbonate, visual_art.visual_art_medium

Abstract

A series of previously reported homoleptic and non-homoleptic N,N-dialkylcarbamates of a range of non precious metals and N,N-dialkylcarbamate of Al(III) were investigated as easily available and inexpensive catalysts in the solventless synthesis of propylene carbonate (PC) from propylene oxide (PO) and CO2. By operating at atmospheric CO2 pressure at ambient temperature, excellent results were achieved using Ti(O2CNEt2)4, Al(O2CNR2)3 (R = Et, iPr), Cu(O2CNEt2)2 and Sn(O2CNEt2)4, in combination with NBu4X (X = Br or Cl) as a co-catalyst. The reactions of MCl2(O2CNEt2)2 (M = Ti, Zr) with amorphous silica were straightforward through partial release of both chlorido and carbamato ligands, and readily afforded solid materials which were characterized by ICP-OES and EDS analyses, coupled to SEM. These heterogeneous catalytic systems revealed less efficient than the homogeneous counterparts.

Published

2018

12. Modifying bis(triflimide) ionic liquids by dissolving early transition metal carbamates

Author

Christian Silvio Pomelli, Fabio Marchetti, Guido Pampaloni, Giulio Bresciani, Lorenzo Biancalana, and Cinzia Chiappe

Subjects

General Physics and Astronomy, carbamates, 010402 general chemistry, DFT calculations, 01 natural sciences, Metal, ionic liquids, chemistry.chemical_compound, ionic liquids, carbamates, transition elements, DFT calculations, IR spectra, NMR spectra, Transition metal, Polymer chemistry, transition elements, Physical and Theoretical Chemistry, Homoleptic, Imide, Dissolution, IR spectra, 010405 organic chemistry, NMR spectra, Solvation, Nuclear magnetic resonance spectroscopy, 0104 chemical sciences, chemistry, visual_art, Ionic liquid, visual_art.visual_art_medium

Abstract

The authors report the first modification of ionic liquids with metal carbamates. A selection of homoleptic N,N-dialkylcarbamates of group 4 and 5 metals, M(O2CNR2)n, were dissolved in bis(trifluoromethylsulfonyl)imide-based ionic liquids, i.e. [bmim][Tf2N] and [P(oct)4][Tf2N], at 293 K. The resulting solutions were characterized by means of IR, UV and NMR spectroscopy, and the data were compared to those of the respective metal compounds. Notably, the dissolution process did not proceed with the release of any of the original carbamato ligands, thus preserving the intact coordination frame around the metal centre. The solvation process of Ti(O2CNiPr2)4, as a model species, in [bmim][Tf2N] was rationalized by DFT calculations. As a comparative study, solutions of NbF5 and MCl5 (M = Nb, Ta) in [bmim][Tf2N] were also investigated, revealing the possible occurrence of solvent anion coordination to the metal centres.

Published

2018

13. Synthesis and Structural Characterization of Non-Homoleptic Carbamato Complexes of V(V) and W(VI) and Their Facile Implantation onto Silica Surfaces

Author

Guido Pampaloni, Stefano Zacchini, Fabio Marchetti, Alessio Gabbani, Giulio Bresciani, Marco Bortoluzzi, Francesco Pineider, Bresciani, Giulio, Bortoluzzi, Marco, Zacchini, Stefano, Gabbani, Alessio, Pineider, Francesco, Marchetti, Fabio, and Pampaloni, Guido

Subjects

Amido derivatives, tungsten, vanadium, tungsten, carbamate, silica, X ray, Vanadium, chemistry.chemical_element, Tungsten, 010402 general chemistry, 01 natural sciences, Inorganic Chemistry, chemistry.chemical_compound, Amido derivative, Polymer chemistry, Homoleptic, Carbamato derivatives, Structure elucidation, Settore CHIM/03 - Chimica Generale e Inorganica, 010405 organic chemistry, X-ray, carbamate, Carbamato derivative, 0104 chemical sciences, Characterization (materials science), X ray, chemistry, silica, vanadium

Abstract

The vanadium(V) amido-carbamato derivatives VO(NR2)(O2CNR2)2(R = Me, 1; Et, 2) are obtained by the reaction of VOCl3with preformed carbamato species (ammonium or sodium carbamates). The synthesis of an ionic ammonium chlorido-amide of WVI, 3, is performed using WOCl4and diethylamine as precursors. Moreover, the reactivity of 3 with CO2is investigated. Mixed WVIchlorido-carbamato compounds, 4 and 5, are obtained by the reaction of WOCl4with stoichiometric amounts of sodium diethylcarbamate. All of the products are characterized by analytical and spectroscopic methods (IR spectroscopy, multinuclear NMR spectroscopy) and by X-ray diffraction in the cases of 3 and 4. DFT calculations are useful to elucidate the structures of the compounds and to give insight into the various reaction pathways. The combination of 2 or 5 with amorphous silica gives solid materials, which are characterized by inductively coupled plasma-optical emission spectroscopy (ICP-OES) and energy dispersive X-ray spectroscopy (EDS) coupled to scanning electron microscopy (SEM).

Published

2018

14. Synthesis of new coordination complexes of MF5(M = Nb, Ta), and insights into the Ta(V) reduction

Author

Tiziana Funaioli, Mohammad Hayatifar, Stefano Zacchini, Giulio Bresciani, Guido Pampaloni, Fabio Marchetti, Bresciani, Giulio, Funaioli, Tiziana, Zacchini, Stefano, Hayatifar, Mohammad, Marchetti, Fabio, and Pampaloni, Guido

Subjects

010405 organic chemistry, Niobium, Tantalum, Cobaltocene, chemistry.chemical_element, Nuclear magnetic resonance spectroscopy, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Adduct, Inorganic Chemistry, chemistry.chemical_compound, Crystallography, chemistry, Tetrafluoride, Materials Chemistry, Benzophenone, Electrochemistry, Physical and Theoretical Chemistry, Fluoride, Dichloromethane, Reduction

Abstract

The pentafluorides of niobium and tantalum reacted with benzophenone (Ph2CO), (2-diphenylphosphino)phenol (DPPPh) and 4-fluorobenzonitrile affording adducts corresponding to the asymmetric (Ph2CO and DPPPh) and symmetric (4-fluorobenzonitrile) cleavage of the tetranuclear structure of MF5. The products were characterized by elemental analysis, IR and multinuclear NMR spectroscopy. A selection of Ta(V) complexes was investigated in the attempt to obtain tantalum tetrafluoride derivatives, which are almost unknown in the literature. The reactions with cobaltocene in dichloromethane afforded unidentified paramagnetic materials and [CoCp2][TaF6], characterized by X-ray diffraction.

Published

2018

15. Iron(III) N,N-Dialkylcarbamate-Catalyzed Formation of Cyclic Carbonates from CO2 and Epoxides under Ambient Conditions by Dynamic CO2 Trapping as Carbamato Ligands

Author

Marco Bortoluzzi, Giulio Bresciani, Guido Pampaloni, and Fabio Marchetti

Subjects

General Chemical Engineering, Inorganic chemistry, Homogeneous catalysis, cyclic carbonates, 010402 general chemistry, 01 natural sciences, Catalysis, chemistry.chemical_compound, epoxides, iron, Environmental Chemistry, General Materials Science, carbon dioxide, homogeneous catalysis, Settore CHIM/03 - Chimica Generale e Inorganica, 010405 organic chemistry, Ligand, Chemistry, 0104 chemical sciences, General Energy, Yield (chemistry), Carbon dioxide, Propylene carbonate, Carbonate, Selectivity

Abstract

Easily available and inexpensive FeIII carbamates were employed in the solvent-free synthesis of a series of cyclic carbonates from epoxides and CO2 at room temperature and atmospheric pressure, in the presence of a cocatalyst. Different experimental conditions (type and concentration of catalyst and cocatalyst, as well as reaction time) were investigated: Fe(O2 CNEt2 )3 and NBu4 Br acted as the best catalyst/cocatalyst combination, allowing the formation of propylene carbonate and 1,2-butylene carbonate with quantitative yield and selectivity in 24 h. According to NMR and DFT studies, the reaction proceeds with the dynamic trapping of carbon dioxide as a carbamato ligand.

Published

2018

16. MoCl5 as an effective chlorinating agent towards α-amino acids: synthesis of α-ammonium-acylchloride salts and α-amino-acylchloride complexes

Author

Guido Pampaloni, Marco Bortoluzzi, Fabio Marchetti, Stefano Zacchini, Giulio Bresciani, Bortoluzzi, Marco, Bresciani, Giulio, Marchetti, Fabio, Pampaloni, Guido, and Zacchini, Stefano

Subjects

Sarcosine, Halogenation, Stereochemistry, Salt, Chloride, NI(II) COMPLEXES, CRYSTAL-STRUCTURE, MOLYBDENUM PENTACHLORIDE, ASYMMETRIC-SYNTHESIS, MOLECULAR-STRUCTURE, NI(II) COMPLEXES, L-TYROSINE, L-PROLINE, L-SERINE, REACTIVITY, GLYCINE, Inorganic Chemistry, chemistry.chemical_compound, symbols.namesake, L-TYROSINE, Chlorides, CRYSTAL-STRUCTURE, Ammonium, Reactivity (chemistry), MOLYBDENUM PENTACHLORIDE, Amino Acids, ASYMMETRIC-SYNTHESIS, Molybdenum, Settore CHIM/03 - Chimica Generale e Inorganica, chemistry.chemical_classification, L-PROLINE, Chemistry, Ligand, Medicine (all), MOLECULAR-STRUCTURE, GLYCINE, REACTIVITY, Gibbs free energy, Amino acid, Amino Acid, Octahedron, Yield (chemistry), symbols, Salts, L-SERINE

Abstract

The reactivity of MoCl5 with α-amino acids was investigated for the first time by choosing CH2Cl2 as the reaction medium. The interaction of MoCl5 with l-proline proceeded with Cl/O interchange and led to the formation of [NH2(CH2)3CHC(O)Cl][MoOCl4], 1, in 63% yield. The reactions of MoCl5 with l-phenylalanine, sarcosine, N,N-dimethylglycine and N,N-dimethyl-l-phenylalanine afforded the α-amino-acylchloride complexes MoOCl3[O[double bond, length as m-dash]C(Cl)CH(R)N(R')(R'')] (R = CH2Ph, R' = R'' = H, 2a; R = R' = H, R'' = Me, 2b; R = H, R' = R'' = Me, 2c R = CH2Ph, R' = R'' = Me, 2d), in ca. 70% yields. According to DFT studies, 2a,d are mononuclear Mo(v) octahedral complexes bearing a N,O-coordinated α-amino-acylchloride ligand. The presumed species formed during the first stages of the MoCl5/l-phenylalanine interaction were DFT-elucidated, thus the calculated Gibbs free energy profile for the multi-step reaction of MoCl5 with l-phenylalanine was traced. [NH3CH(CH2Ph)C(O)Cl][MoOCl4], 3, acting as an intermediate in the course of the formation of 2a, was isolated by combination of [NH3CH(CH2Ph)C(O)Cl][Cl] with MoOCl3.

Published

2015

17. Synthesis and structural characterization of mixed halide–N,N-diethylcarbamates of group 4 metals, including a case of unusual tetrahydrofuran activation

Author

Guido Pampaloni, Marco Bortoluzzi, Stefano Zacchini, Fabio Marchetti, Giulio Bresciani, Bortoluzzi, Marco, Bresciani, Giulio, Marchetti, Fabio, Pampaloni, Guido, and Zacchini, Stefano

Subjects

STRUCTURE VALIDATION, Group 4, Inorganic chemistry, Halide, chemistry.chemical_element, 010402 general chemistry, 01 natural sciences, EFFECTIVE CORE POTENTIALS, Catalysis, Metal, X-ray, Group 4 metals, CARBON-DIOXIDE, chemistry.chemical_compound, Materials Chemistry, halide, thf activation, MOLYBDENUM PENTACHLORIDE, Homoleptic, Tetrahydrofuran, Settore CHIM/03 - Chimica Generale e Inorganica, Zirconium, DERIVATIVES, 010405 organic chemistry, Group 4, carbamate, X-ray, thf activation, halide, N-DIALKYLCARBAMATO COMPLEXES, NIOBIUM, carbamate, General Chemistry, TANTALUM PENTAHALIDES, MOLECULAR CALCULATIONS, Toluene, EFFECTIVE CORE POTENTIALS, CARBON-DIOXIDE, N,N-DIALKYLCARBAMATO COMPLEXES, TANTALUM PENTAHALIDES, MOLYBDENUM PENTACHLORIDE, MOLECULAR CALCULATIONS, STRUCTURE VALIDATION, DERIVATIVES, NIOBIUM, POLYMERIZATION, 0104 chemical sciences, POLYMERIZATION, Crystallography, chemistry, Yield (chemistry), visual_art, visual_art.visual_art_medium, Metal complexe, Titanium

Abstract

Solid-state, thermally stable tetramethylguanidinium N,N-diethylcarbamate [TMGH][O2CNEt2] was prepared from tetramethylguanidine (TMG), N,N-diethylamine and carbon dioxide (1 atm). The reaction of [TMGH][O2CNEt2] with TiCl4 in toluene afforded [TMGH]2[TiCl6] and TiCl2(O2CNEt2)2. The tetrachlorides of titanium, zirconium and hafnium were effectively converted into the respective mixed dichloride-dicarbamates, MCl2(O2CNEt2)2, by the reaction with either silver diethylcarbamate or the corresponding homoleptic metal N,N-diethylcarbamate, M(O2CNEt2)4. The titanium and hafnium derivatives are trinuclear in the solid state according to X-ray diffraction analysis (M = Ti) and DFT calculations (M = Hf). Instead, ZrCl2(O2CNEt2)4 was obtained as a mixture of two isomers presumably holding dinuclear and trinuclear structures, according to DFT calculations. Difluoride-dicarbamate TiF2(O2CNEt2)4 was prepared in a similar way as the homologous Cl-compound. All the products were characterized by analytical and spectroscopic methods, and by X-ray diffraction in the cases of [TMGH]2[TiCl6] and Ti3Cl6(μ-O2CNEt2)6. The complex Hf4Cl4(O)2(O2CNEt2)6[O(CH2)3CHO]2 was isolated in low yield in crystalline form from a thf solution of HfCl2(O2CNEt2)2, and then X-ray characterized.

Published

2017