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52. Structure‐Activity Relationships for Bis(phenolate‐ether) Zr/Hf Propene Polymerization Catalysts

Author

Antonio Vittoria, Eric N. T. Cuthbert, Vincenzo Busico, Peter H. M. Budzelaar, Roberta Cipullo, Cuthbert, E. N. T., Vittoria, A., Cipullo, R., Busico, V., and Budzelaar, P. H. M.

Subjects
Polypropylene, Zirconium, chemistry.chemical_element, Ether, Polymerization, Hafnium, Inorganic Chemistry, Propene, chemistry.chemical_compound, chemistry, Polymer chemistry, Polymerization catalysts, Density functional calculation
Abstract

A series of 20 bis(phenolate-ether) ligands, in combination with Zr and Hf, was tested for performance in propene polymerization, focusing on molecular weight, stereoregularity and regioregularity of the resulting polymer. Ligand variation covers length of the aliphatic linker between the ligand halves, as well as steric bulk of the groups ortho to the phenolate oxygen. The linker length has a dramatic effect on MW: two-carbon linkers produce oligomers (Mn < 2.5 kDa) while three- and four-carbon linkers generate much higher MW (Mn typically 50–500 kDa). Stereoselectivity can be tuned using large, flat substituents in the o-phenolate position; tuning of regioselectivity is much harder. Hf catalysts are slower than their Zr analogs and do not work well with MAO/BHT (BHT = 2,6-di-tert-butyl-4-methylphenol); they are generally more selective (MW, stereo and regio). Density functional calculations agree fairly well with observed selectivities, supporting the involvement of a fac/fac coordinated active species. These O4 catalysts are considerably more flexible than e.g. metallocenes, making accurate prediction of PP microstructure a significant challenge.

Published
2020
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53. Ziegler–Natta Catalysts: Regioselectivity and 'Hydrogen Response'

Author

Anika Meppelder, Antonio Vittoria, Vincenzo Busico, Roberta Cipullo, Nic Friederichs, Vittoria, A., Meppelder, A., Friederichs, N., Busico, V., and Cipullo, R.

Subjects
External Donor, Materials science, Hydrogen, chemistry.chemical_element, Natta, 010402 general chemistry, 01 natural sciences, Catalysis, Propene, chemistry.chemical_compound, Tacticity, biology, 010405 organic chemistry, Regioselectivity, General Chemistry, hydrogen response, biology.organism_classification, Combinatorial chemistry, isotactic polypropylene, 0104 chemical sciences, chemistry, Polymerization, regioselectivity, Ziegler-Natta catalysts, Internal Donor
Abstract

Advanced High Throughput Experimentation (HTE) methods were applied to quantify the regioselectivity and the so-called "hydrogen response" in propene polymerization of four Ziegler-Natta catalysts representative of the three latest industrial generations (i.e., modified with a dialkyl phthalate, 1,3-dimethoxypropane or dialkyl succinate Internal Donor), used in combination with AlEt3 and a library of eight alkoxysilane External Donors with large structural diversity. At odds with stereoselectivity, regioselectivity turned out to be only modestly impacted by the chemical structure of the electron donors used as surface modifiers. A clear and simple relationship between regioselectivity and "hydrogen response", and, therefore, polymer molecular weight modulation was highlighted.

Published
2019
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54. Hafnium vs. Zirconium, the Perpetual Battle for Supremacy in Catalytic Olefin Polymerization: A Simple Matter of Electrophilicity?

Author

Francesco Zaccaria, Oleg V. Samsonov, Vyatcheslav V. Izmer, Dmitry S. Kononovich, Roberta Cipullo, Dmitry V. Uborsky, Alexander Z. Voskoboynikov, Vincenzo Busico, Gaia Urciuoli, Christian Ehm, Antonio Vittoria, Peter H. M. Budzelaar, Georgy P. Goryunov, Vittoria, A., Goryunov, G. P., Izmer, V. V., Kononovich, D. S., Samsonov, O. V., Zaccaria, F., Urciuoli, G., Budzelaar, P. H. M., Busico, V., Voskoboynikov, A. Z., Uborsky, D. V., Ehm, C., and Cipullo, R.

Subjects
Polymers and Plastics, molecular catalysts, hafnocenes, chemistry.chemical_element, Organic chemistry, Article, Catalysis, chemistry.chemical_compound, high-temperature performance, QD241-441, Tacticity, Polymer chemistry, Hafnocene, chemistry.chemical_classification, Zirconium, QSAR, iPP, General Chemistry, Polymer, Hafnium, chemistry, Polymerization, Electrophile, olefin polymerization, Metallocene, Molecular catalyst
Abstract

The performance of C2-symmetric ansa-hafnocene catalysts for isotactic polypropylene typically deteriorates at increasing temperature much faster than that of their zirconium analogues. Herein, we analyze in detail a set of five Hf/Zr metallocene pairs—including some of the latest generation catalysts—at medium- to high-polymerization temperature. Quantitative structure–activity relationship (QSAR) models for stereoselectivity, the ratio allyl/vinyl chain ends, and 2,1/3,1 misinsertions in the polymer indicate a strong dependence of polymerization performance on electrophilicity of the catalyst, which is a function of the ligand framework and the metal center. Based on this insight, the stronger performance decline of hafnocenes is ascribed to electrophilicity-dependent stabilization effects.

Published
2021
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55. Methylaluminoxane’s Molecular Cousin: A Well-defined and 'Complete' Al-Activator for Molecular Olefin Polymerization Catalysts

Author

Christian Ehm, Peter H. M. Budzelaar, Vincenzo Busico, Francesco Zaccaria, Cristiano Zuccaccia, Antonio Vittoria, Alceo Macchioni, Roberta Cipullo, Zaccaria, Francesco, Zuccaccia, Cristiano, Cipullo, Roberta, Budzelaar, Peter H. M., Vittoria, Antonio, Macchioni, Alceo, Busico, Vincenzo, Ehm, Christian, EuCheMS International Organometallic Conference XXIV, Zaccaria, F., Zuccaccia, C., Cipullo, R., Budzelaar, P. H. M., Vittoria, A., Macchioni, A., Busico, V., and Ehm, C.

Subjects
molecular catalysts, 010405 organic chemistry, Chemistry, Activator (genetics), borate activator, Methylaluminoxane, impurity scavenging, olefin polymerization catalysis, General Chemistry, 010402 general chemistry, 01 natural sciences, Catalysis, Scavenger (chemistry), 0104 chemical sciences, "latent" Lewis acidity, chemistry.chemical_compound, Polymer chemistry, Olefin polymerization, alkyl aluminum, catalyst activation
Abstract

Catalytic activity in olefin polymerization depends not only on the catalyst but also, crucially, on activator/alkylator/scavenger “packages.” Along with binary mixtures containing Lewis or Bronste...

Published
2021

56. Synthesis, structure and properties of copolymers of syndiotactic polypropylene with 1-hexene and 1-octene

Author

Angelo Giordano, Rocco Di Girolamo, Giovanni Talarico, Fabio De Stefano, Claudio De Rosa, Anna Malafronte, Roberta Cipullo, Miriam Scoti, Scoti, M., Di Girolamo, R., De Stefano, F., Giordano, A., Malafronte, A., Talarico, G., Cipullo, R., and De Rosa, C.

Subjects
Polypropylene, Materials science, Polymers and Plastics, Comonomer, Organic Chemistry, Bioengineering, Post-metallocene catalyst, Biochemistry, law.invention, chemistry.chemical_compound, Crystallinity, Crystallography, chemistry, law, Tacticity, Crystallization, Glass transition, 1-Octene
Abstract

Syndiotactic propene–hexene (sPPC6) and propene–octene (sPPC8) copolymers have been synthesized in a wide range of compositions with a syndiospecific metallocene catalyst. The samples are crystallized up to a comonomer content of nearly 20 mol% with crystallinity, melting and glass transition temperatures that decrease with increasing concentrations of comonomers. The copolymers show elastic properties that depend on the crystallization behavior. The as-prepared samples with a comonomer content lower than 2 mol% crystallize in mixtures of the helical form I and form II of syndiotactic polypropylene (sPP), the latter containing conformational kink band defects and the former containing a b/4 shift disorder. Both sPPC6 and sPPC8 copolymers crystallize from the melt in disordered modifications of form I characterized by disorder in the alternation of right- and left-handed two-fold helical chains along the axes of the orthorhombic unit cell of form I of sPP. At high crystallization temperatures, more ordered modifications of form I develop for samples with a low comonomer concentration and form II surprisingly crystallizes in samples with a high comonomer content. The crystallization of form II rather than the ordered form I in melt-crystallized samples is a valuable result because it indicates that it is possible to tune the polymorphic transformations and the elastic properties of these copolymers through tuning of the branches concentrations.

Published
2021

57. Polyolefin Chain Shuttling at ansa-Metallocene Catalysts: Legend and Reality

Author

Vincenzo Busico, Christian Ehm, Roberta Cipullo, Antonio Vittoria, Felicia Daniela Cannavacciuolo, 1st International Symposium on High-Throughput Catalysts Design (HTCD 2021), Vittoria, Antonio, Cannavacciuolo, FELICIA DANIELA, Ehm, Christian, Cipullo, Roberta, Busico, Vincenzo, Cannavacciuolo, F. D., Vittoria, A., Ehm, C., Cipullo, R., and Busico, V.

Subjects
Materials science, Polymers and Plastics, Coordinative chain transfer polymerization, General Physics and Astronomy, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Catalysis, Stereoblock polypropylene, Propene, chemistry.chemical_compound, Tacticity, Polymer chemistry, Materials Chemistry, Metallocene, Organic Chemistry, Chain transfer, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Polyolefin, Polymerization, chemistry, Ansa-metallocene, Polypropylene, 0210 nano-technology
Abstract

Olefin coordinative chain-transfer polymerization (CCTP) under concurrent tandem catalysis conditions is a smart and valuable synthetic approach to statistical olefin block copolymers (OBC). This process, better known as chain shuttling (co)polymerization, was disclosed by Dow Chemical in 2006. Many new polyolefin materials with unique properties and applications can be produced, and as a matter of fact some processes have reached the commercial stage. Several OBC can act as phase compatibilizers in immiscible polyolefin blends, for which a high demand is anticipated in a circular economy. On the other hand, the number of catalyst systems amenable to this polymerization chemistry is very limited, and it is clear now that several literature claims of CCTP are questionable. In particular, the low average molar mass of polyolefin samples produced in the presence of the typical transalkylating agents used for CCTP (such as diethyl-Zn, DEZ) often hampers effective separations of the different components of physical blends, which can be mistaken as an indication of a block copolymer nature. On top of that, the mechanical properties of intimate polyolefin physical blends can resemble, at least at a superficial characterization, those of true OBC. A thorough understanding of such processes is a mandatory requirement towards a rational catalyst design leading to improvements of existing materials or, ultimately, the synthesis of new/better ones. In this respect, a smart use of High Throughput Experimentation (HTE) methodologies represents the best possible approach to address complex and multivariable dilemmas. The present talk will focus on a recent case history: despite several claims on the amenability for binary metallocene systems to undergo chain-shuttling polymerization producing stereoblock isotactic/syndiotactic polypropylene materials, we demonstrated that the isotactic-selective C2-symmetric rac-Me2Si(2-Me-4-Ph-1-Ind)2ZrCl2 catalyst is not prone to propene CCTP, and therefore does not yield stereoblock PP materials when used in racemic form or in tandem with other metallocenes. The proposed approach can be easily extended, providing irrefutable evidence for CCTP, as long as the average polymer molar mass is not low to the point that it largely dictates physical properties and flaws the determination of the 13C NMR microstructural fingerprint.

Published
2021

58. Ansa-Zirconocene Catalysts for Isotactic-Selective Propene Polymerization at High Temperature: A Long Story Finds a Happy Ending

Author

Vincenzo Busico, Christian Ehm, Alexander Z. Voskoboynikov, Vyatcheslav V. Izmer, Dmitry V. Uborsky, Antonio Vittoria, Peter H. M. Budzelaar, Georgy P. Goryunov, Pavel S. Kulyabin, Roberta Cipullo, Mikhail I. Sharikov, Kulyabin, P. S., Goryunov, G. P., Sharikov, M. I., Izmer, V. V., Vittoria, A., Budzelaar, P. H. M., Busico, V., Voskoboynikov, A. Z., Ehm, C., Cipullo, R., and Uborsky, D. V.

Subjects
chemistry.chemical_classification, Chemistry, Ligand, General Chemistry, Polymer, Temperature a, 010402 general chemistry, 01 natural sciences, Biochemistry, Catalysis, 0104 chemical sciences, Propene, Crystallography, chemistry.chemical_compound, Colloid and Surface Chemistry, Polymerization, Tacticity, Happy ending
Abstract

Absolute rigidity is rare in the "soft" world of organometallics. Here we introduce two cyclopenta[a]triptycyl ansa-zirconocene catalysts for isotactic-selective propene polymerization, designed by means of an integrated high-throughput experimentation/quantitative structure-activity relationship modeling approach. An ultrarigid ligand precisely wrapped around the Zr center enforces an enzyme-like lock and key fit, effectively hampering undesired reactive events, even at high temperature. Stereodefective units are hardly detectable by 13C NMR in the polymer produced at 120 °C; this corresponds to an enantioselectivity exceeding 6-7 kcal/mol: i.e., less than 1 propene misinsertion every 4000 (and at room temperature, one every ∼40000!).

Published
2021

59. On the limits of tuning comonomer affinity of 'Spaleck-type'ansa-zirconocenes in ethene/1-hexene copolymerization: a high-throughput experimentation/QSAR approach

Author

Peter H. M. Budzelaar, Georgy P. Goryunov, Dmitry S. Kononovich, Vincenzo Busico, Oleg V. Samsonov, Vyatcheslav V. Izmer, Christian Ehm, Dmitry V. Uborsky, Antonio Vittoria, Alexander Z. Voskoboynikov, Roberta Cipullo, Ehm, C., Vittoria, A., Goryunov, G. P., Izmer, V. V., Kononovich, D. S., Samsonov, O. V., Budzelaar, P. H. M., Voskoboynikov, A. Z., Busico, V., Uborsky, D. V., and Cipullo, R.

Subjects
Inorganic Chemistry, Steric effects, 1-Hexene, chemistry.chemical_compound, Olefin fiber, Quantitative structure–activity relationship, Chemistry, Computational chemistry, Comonomer, Substituent, Copolymer, Reactivity (chemistry)
Abstract

For a set of 40 silicon-bridged C2-symmetric ansa-zirconocenes, reactivity ratios in ethene/1-hexene copolymerization were experimentally determined by means of an accurate high-throughput experimentation (HTE) approach, and used to develop quantitative structure-activity relationship (QSAR) models for comonomer affinity using chemically meaningful descriptors. These QSAR models rely almost exclusively on steric descriptors, with the single most important descriptor being the 'openness' of the open quadrants. Catalysts with an unobstructed main insertion pathway, i.e. without substituents affecting the open quadrant, show a remarkable insensitivity to further substituent effects, be it in 2-, 4-, 5-, 6- or 7-position or the bridge. We attribute this insensitivity to a shift in rate-limiting step for the comonomer incorporation, from insertion to olefin capture, with the latter being much less sensitive to modulation of the active pocket than the former. This indicates that our best incorporators are already close to the upper limit for comonomer affinity within this catalyst class. This journal is

Published
2020

60. Connection of Stereoselectivity, Regioselectivity, and Molecular Weight Capability in rac-R′2Si(2-Me-4-R-indenyl)2ZrCl2 Type Catalysts

Author

Antonio Vittoria, Alexander Z. Voskoboynikov, Roberta Cipullo, Dmitry V. Uborsky, Vincenzo Busico, Pavel S. Kulyabin, Christian Ehm, Peter H. M. Budzelaar, Georgy P. Goryunov, Ehm, C., Vittoria, A., Goryunov, G. P., Kulyabin, P. S., Budzelaar, P. H. M., Voskoboynikov, A. Z., Busico, V., Uborsky, D. V., and Cipullo, R.

Subjects
Steric effects, Polymers and Plastics, 010405 organic chemistry, Chemistry, Organic Chemistry, Regioselectivity, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Catalysis, Inorganic Chemistry, Propene, chemistry.chemical_compound, Computational chemistry, Materials Chemistry, Stereoselectivity
Abstract

A set of 19 silicon-bridged C2-symmetric zirconocenes rac-R′2Si(2-Me-4-R-indenyl)2ZrCl2 of varying steric demand in position 4 were synthesized and screened in propene homopolymerization in a high-throughput experimental setup. The size and accuracy of the experimental data set allow to identify surprisingly good correlations among stereoselectivity, regioselectivity, and molecular weight capability (R2 ≈ 0.8−0.9) over a broad range. We rationalize this trend by assuming that steric tuning in the 4-position affects both preferred insertion and stereoerror formation similarly but leaves other barriers largely unaffected. A quantitative structure−activity relationship based on one single computational descriptor, Δ%VBur using the difference in the percent of buried volume between the “blocked” and “open” quadrants of the catalyst precursoris established. Provided that a large sphere of 5.0 Å is used, stereoselectivity can be predicted with unprecedented accuracy, i.e., a mean average deviation (MAD) of 0.18 kcal/mol (ΔΔG‡ enantio), 0.0007 (σ, probability that the preferred propene enantioface is selected at an active site of given chirality), or 0.3% (mmmm pentads). On the basis of this empirical model, we predicted that the catalyst with R = o-tolyl is an ideal candidate for high stereoselectivity/high MW capability. Ad hoc synthesis and testing of the precursor confirmed the expectations: the catalyst shows the highest stereoselectivity reported so far (σ = 0.9999) for metallocenes at 60 °C, while maintaining a high MW capability (Mw > 1 MDa) and relatively high regioselectivity.

Published
2018
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61. On the Nature of the Lewis Acidic Sites in 'TMA-Free' Phenol-Modified Methylaluminoxane

Author

Peter H. M. Budzelaar, Francesco Zaccaria, Roberta Cipullo, Cristiano Zuccaccia, Alceo Macchioni, Christian Ehm, Vincenzo Busico, Zaccaria, F., Zuccaccia, C., Cipullo, R., Budzelaar, P. H. M., Macchioni, A., Busico, V., and Ehm, C.

Subjects
Chemistry, Methylaluminoxane, Catalyst activation, Neutral donors, Lewis acid, Neutral donor, Polymerization, Inorganic Chemistry, chemistry.chemical_compound, Polymer chemistry, Lewis acids, Lewis acids and bases, Free phenol
Abstract

“Structural” AlMe2(bht) was found to be an integral building block of the “TMA-free” olefin polymerization cocatalyst MAO/BHT (TMA = trimethylaluminum, MAO = methylaluminoxane, BHT = 2,6-di-tert-butyl-4-methylphenol). NMR studies show that treatment of MAO/BHT with the neutral N-donor pyridine (py) leads to selective generation of neutral AlMe2(bht)(py). The reaction of MAO/BHT with 2,2'-bipyridine (bipy) generates cationic [AlMe(bht)(bipy)]+ fragments (bht = BHT phenolate), analogously to what happens when unmodified MAO is treated with bipy, causing [AlMe2(bipy)]+ formation. This suggests that the activation of an olefin polymerization precatalyst LnMX2 (X = Me or Cl) can occur via an indirect pathway involving [AlMeR]+ (R = Me or bht) transient species (rather than direct Cl/Me abstraction by the Al-cages) not only when unmodified MAO is exploited but also in the case of “TMA-free” BHT-modified MAO. The high chemoselectivity of py for neutral Al adducts however presents a distinct difference to unmodified MAO. These observations indicate that a) “structural” TMA is converted into “structural” AlMe2(bht) upon reaction of MAO with BHT and that b) MAO/BHT is harder to ionize than unmodified MAO. A refined formula and cluster size estimation [(AlOMe)0.87(AlMe2bht)0.13]n (n = 57–84) is proposed for MAO/BHT based on this new experimental evidence, accounting for the presence of “structural” AlMe2(bht) units.

Published
2020

62. High-Throughput Experimentation in Olefin Polymerization Catalysis: Facing the Challenges of Miniaturization

Author

Francesco Zaccaria, Christian Ehm, Vincenzo Busico, Antonio Vittoria, Alessio Mingione, Roberta Cipullo, Ehm, C., Mingione, A., Vittoria, A., Zaccaria, F., Cipullo, R., and Busico, V.

Subjects
Olefin fiber, Materials science, General Chemical Engineering, Methylaluminoxane, Nanotechnology, 02 engineering and technology, General Chemistry, 021001 nanoscience & nanotechnology, Industrial and Manufacturing Engineering, chemistry.chemical_compound, 020401 chemical engineering, chemistry, Miniaturization, Olefin polymerization, 0204 chemical engineering, 0210 nano-technology, Throughput (business)
Abstract

Highly active molecular catalysts for olefin polymerization are extremely difficult to run in high-throughput experimentation (HTE) platforms. With common activators like methylaluminoxane (MAO) or a combination of tri-iso-butylaluminum and trityl tetrakis(perfluorophenyl)borate (TIBA/TTB), the necessary downscaling ends up with (sub)nanomole precatalyst loadings and poorly reproducible results due to the presence of adventitious impurities in similar amounts. Unexpectedly, we have now discovered that a convenient solution to this problem is provided by TIBA/AB (AB = N,N-dimethylanilinium tetrakis(perfluorophenyl)borate), a long-known but relatively uncommon protic activator. Indeed, with a proper operating protocol, a tunable precatalyst activation delay (minutes to hours) can be achieved, and even at high (≥10 nmol) catalyst loadings, a transient phase of well-controlled activity can be maintained long enough to produce the polymer amounts necessary for the characterizations under highly reproducible conditions. Importantly, polymer properties were not affected by choice of the activator, provided that the polymerization was kinetically controlled, which makes TIBA/AB the best option for HTE screenings of industrially relevant catalysts.

Published
2020

63. Transmission electron microscopy analysis of multiblock ethylene/1-octene copolymers

Author

Finizia Auriemma, Gaia Urciuoli, Veronica Vanzanella, Roberta Cipullo, Maria Rosaria Caputo, Rocco Di Girolamo, Vincenzo Busico, Claudio De Rosa, Miriam Scoti, Salvatore Costanzo, Nino Grizzuti, Anna Malafronte, Auriemma, F., Di Girolamo, R., Urciuoli, G., Caputo, M. R., De Rosa, C., Scoti, M., Malafronte, A., Cipullo, R., Busico, V., Grizzuti, N., Vanzanella, V., and Costanzo, S.

Subjects
Materials science, Chain shuttling technology, Termoplastic elastomers, Polymers and Plastics, Organic Chemistry, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Microstructure, 01 natural sciences, Melt and solid-state heterogeneity, 0104 chemical sciences, law.invention, Amorphous solid, Chemical engineering, Statistical multiblock copolymer, law, Transmission electron microscopy, Phase (matter), Materials Chemistry, Copolymer, Lamellar structure, Crystallization, Thermoplastic elastomer, 0210 nano-technology
Abstract

The crystalline morphology of ethylene/1-octene (EO-BC) statistical multiblock copolymers is investigated by transmission electron microscopy (TEM). EO-BCs are an important class of thermoplastic elastomers characterized by alternating crystalline, octene-poor, hard blocks and amorphous, octene-rich, soft blocks and statistical distribution of block length (BL) and number of blocks/chain (NB). Adopting similar crystallization conditions, samples with only subtle differences in the chain microstructure, are shown to display different solid-state morphology as probed by TEM and different melt rheology. In particular, the homogeneous or heterogeneous lamellar morphology which develops in the solid state reflects the tendency of the samples to show homogeneous or heterogeneous melt-rheology, respectively. As EO-BCs are a reactor blend of non-uniform chains, it is argued that the solid state and melt phase behavior of EO-BCs is controlled by differences in the relative abundance of chains including a prevalence of hard blocks of short and/or high length.

Published
2020

64. Synthesis and olefin polymerization performance of new ansa-zirconocene with OSiO-bridged bis(2-indenyl) ligand

Author

Dmitry V. Uborsky, Roberta Cipullo, Ilya S. Borisov, Georgy P. Goryunov, Vincenzo Busico, Antonio Vittoria, Alexander Z. Voskoboynikov, Nic Friederichs, Dmitry Y. Mladentsev, Bogdan A. Guzeev, Borisov, I. S., Mladentsev, D. Y., Guzeev, B. A., Goryunov, G. P., Uborsky, D. V., Vittoria, A., Cipullo, R., Busico, V., Friederichs, N., and Voskoboynikov, A. Z.

Subjects
Ethylene, Dimethylsilane, 010405 organic chemistry, Ligand, Methylaluminoxane, General Chemistry, Nuclear magnetic resonance spectroscopy, single-site catalyst, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Catalysis, LLDPE, chemistry.chemical_compound, chemistry, ansa-metallocene, Polymer chemistry, Copolymer, Olefin polymerization, olefin polymerization, X-ray crystallography
Abstract

New ansa-zirconocene with bis(inden-2-yloxy)dimethylsilane ligand was synthesized and characterized by NMR spectroscopy and X-ray crystallography. The zirconocene was found to be highly active catalyst of ethylene polymerization and ethylene/hex-1-ene copolymerization upon methylaluminoxane activation.

Published
2020

65. Reactivity Trends of Lewis Acidic Sites in Methylaluminoxane and Some of Its Modifications

Author

Alceo Macchioni, Francesco Zaccaria, Peter H. M. Budzelaar, Roberta Cipullo, Cristiano Zuccaccia, Christian Ehm, Vincenzo Busico, Zaccaria, F., Budzelaar, P. H. M., Cipullo, R., Zuccaccia, C., Macchioni, A., Busico, V., and Ehm, C.

Subjects
Ionization, Cluster chemistry, 010405 organic chemistry, Chemistry, Reactivity, Methylaluminoxane, Rearrangement, Molecules, 010402 general chemistry, 01 natural sciences, Article, 0104 chemical sciences, Inorganic Chemistry, chemistry.chemical_compound, Computational chemistry, Cluster (physics), Reactivity (chemistry), Density functional theory, Molecules, Ionization, Rearrangement, Reactivity, Cluster chemistry, Physical and Theoretical Chemistry
Abstract

The established model cluster (AlOMe)16(AlMe3)6 for methylaluminoxane (MAO) cocatalyst has been studied by density functional theory, aiming to rationalize the different behaviors of unmodified MAO and TMA-depleted MAO/BHT (TMA = trimethylaluminum; BHT = 2,6-di-tert-butyl-4-methylphenol), highlighted in previous experimental studies. The tendency of the three model Lewis acidic sites A–C to release neutral Al fragments (i.e., AlMe2R; R = Me or bht) or transient aluminum cations (i.e., [AlMeR]+) has been investigated both in the absence and in the presence of neutral N-donors. Sites C are most likely responsible for the activation capabilities of TMA-rich MAO, but TMA depletion destabilizes them, possibly inducing structural rearrangements. The remaining sites A and B, albeit of lower Lewis acidity, should be still able to release cationic Al fragments when TMA-depleted modified MAOs are treated with N-donors (e.g. [AlMe(bht)]+ from MAO/BHT). These findings provide tentative interpretations for earlier observations of donor-dependent ionization tendencies of MAO and MAO/BHT and how TMA depleted MAOs can still be potent activators., A model cluster for methylaluminoxane (MAO) was used to study the tendency of model Lewis acidic sites to release neutral Al fragments or transient aluminum cations both for unmodified MAO and TMA-depleted MAO/BHT (TMA = trimethylaluminum; BHT = 2,6-di-tert-butyl-4-methylphenol). Albeit only sites of lower Lewis acidity are found in TMA depleted modified MAOs, they can release cationic Al fragments when treated with certain N-donors. This shows how TMA depleted MAOs can still be potent activators.

Published
2020

66. An integrated high throughput experimentation/predictive QSAR modeling approach to ansa-zirconocene catalysts for isotactic polypropylene

Author

Alexander Z. Voskoboynikov, Peter H. M. Budzelaar, Georgy P. Goryunov, Vincenzo Busico, Dmitry V. Uborsky, Christian Ehm, Dmitry S. Kononovich, Antonio Vittoria, Roberta Cipullo, Rocco Di Girolamo, Oleg V. Samsonov, Vyatcheslav V. Izmer, Ehm, C., Vittoria, A., Goryunov, G. P., Izmer, V. V., Kononovich, D. S., Samsonov, O. V., Girolamo, R. D., Budzelaar, P. H. M., Voskoboynikov, A. Z., Busico, V., Uborsky, D. V., and Cipullo, R.

Subjects
Quantitative structure–activity relationship, Materials science, molecular catalysts, Polymers and Plastics, QSAR, Substituent, Quantitative structure, Regioselectivity, Stereoselectivity, General Chemistry, Combinatorial chemistry, Catalysis, lcsh:QD241-441, chemistry.chemical_compound, Molecular weight capability, lcsh:Organic chemistry, chemistry, Tacticity, Metallocene, Throughput (business), Olefin polymerization, I-PP, Molecular catalyst
Abstract

Compared to heterogenous Ziegler&ndash, Natta systems (ZNS), ansa-metallocene catalysts for the industrial production of isotactic polypropylene feature a higher cost-to-performance balance. In particular, the C2-symmetric bis(indenyl) ansa-zirconocenes disclosed in the 1990s are complex to prepare, less stereo- and/or regioselective than ZNS, and lose performance at practical application temperatures. The golden era of these complexes, though, was before High Throughput Experimentation (HTE) could contribute significantly to their evolution. Herein, we illustrate a Quantitative Structure &ndash, Activity Relationship (QSAR) model trained on a robust and highly accurate HTE database. The clear-box QSAR model utilizes, in particular, a limited number of chemically intuitive 3D geometric descriptors that screen various regions of space in and around the catalytic pocket in a modular way thus enabling to quantify individual substituent contributions. The main focus of the paper is on the methodology, which should be of rather broad applicability in molecular organometallic catalysis. Then again, it is worth emphasizing that the specific application reported here led us to identify in a comparatively short time novel zirconocene catalysts rivaling or even outperforming all previous homologues which strongly indicates that the metallocene story is not over yet.

Published
2020

67. Regioirregular Monomeric Units in Ziegler-Natta Polypropylene: A Sensitive Probe of the Catalytic Sites

Author

Roberta Cipullo, Antonio Vittoria, Giuseppe Antinucci, Vincenzo Busico, Antinucci, G., Vittoria, A., Cipullo, R., and Busico, V.

Subjects
Polypropylene, Materials science, Polymers and Plastics, biology, Organic Chemistry, 02 engineering and technology, Natta, 010402 general chemistry, 021001 nanoscience & nanotechnology, biology.organism_classification, 01 natural sciences, 0104 chemical sciences, Catalysis, Inorganic Chemistry, chemistry.chemical_compound, Monomer, chemistry, Tacticity, Polymer chemistry, Materials Chemistry, 0210 nano-technology
Abstract

Isotactic polypropylene (i-PP) is mainly produced with heterogeneous Ziegler-Natta (ZN) catalyst systems. Direct structural information on the active species is very difficult to achieve; as a matter of fact, the 13C NMR microstructure of the polymer has long been used as an indirect "fingerprint". For a long time, however, the intrinsically poor sensitivity of natural abundance 13C NMR spectroscopy hampered a complete evaluation of the microstructure, and many rare albeit important details escaped detection with standard tools and methods. The most prominent case is that of the regiodefects, which are specially important because they dictate ZN catalyst response to molecular hydrogen used as a chain transfer agent. In recent papers we have reported on the quantification of regioirregular 2,1 units in ZN i-PP by means of high-temperature cryoprobe 13C NMR. Here we shift the focus onto the stereochemical environment of such units, which was highlighted by comparing the spectra of suitable ZN PP fractions with those of model PP samples made with molecular catalysts of different structures and symmetries. The results lend support to our three-site model of ZN catalytic species, originally based on the stereochemistry of regioregular PP chains/blocks.

Published
2020

73. 'Uni et Trini': In Situ Diversification of (Pyridylamide)hafnium(IV) Catalysts

Author

Robert D. J. Froese, Roberta Pellecchia, Cristiano Zuccaccia, Roberta Cipullo, Giovanni Talarico, Phillip D. Hustad, Luca Rongo, Alceo Macchioni, Vincenzo Busico, Busico, Vincenzo, Cipullo, Roberta, Pellecchia, Roberta, Rongo, Luca, Talarico, Giovanni, Macchioni, A., Zuccaccia, C., Froese, R. D. J., Hustad Phillip, D., Busico, V., Cipullo, R., Pellecchia, R., Rongo, L., Talarico, G., and Hustad, P. D.

Subjects
Inorganic Chemistry, In situ, Polymers and Plastics, chemistry, Organic Chemistry, Materials Chemistry, chemistry.chemical_element, Organic chemistry, Diversification (marketing strategy), Hafnium, Catalysis
Abstract

A study was conducted to demonstrate in situ diversification of (pyridylamide)hafnium(IV) catalysts. An extensive density functional theory (DFT) study was conducted for several C 1-symmetric and C s-symmetric precatalysts to investigate the diversification of the (pyridylamide)hafnium(IV) catalysts. The study also investigated propylene polymerizations were investigated with two catalysts to find evidence of multisite behavior. It was observed that catalyst systems 1/Ph 3C][B-(C 6F 5) 4] and 2/Ph 3C][B(C 6F 5) 4] produced polypropylene samples with broad molecular weight distributions.

Published
2009
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74. Syndiotactic Poly(propylene) from [Me2Si(3,6-di-tert-butyl-9-fluorenyl)(N-tert-butyl)]TiCl2–Based Catalysts: Chain-End or Enantiotopic-Sites Stereocontrol?

Author

Roberta Cipullo, Francesco Cutillo, Abbas Razavi, Giovanni Talarico, Vincenzo Busico, Busico, V, Cipullo, R, Cutillo, F, Talarico, Giovanni, and Razavi, A.

Subjects
Polymers and Plastics, Organic Chemistry, Methylaluminoxane, Enantioselective synthesis, Condensed Matter Physics, Asymmetric induction, Catalysis, Propene, chemistry.chemical_compound, chemistry, Polymerization, Tacticity, Polymer chemistry, Materials Chemistry, Physical and Theoretical Chemistry, Selectivity
Abstract

The origin of the syndiotactic selectivity in propene polymerization of a typical bridged fluorenyl-amido catalyst, namely [Me 2 Si(3,6-di-tert-butyl-9-fluorenyl)(N-tert-butyl)]TiCl 2 (1), activated with methylaluminoxane or [HMe 2 N(C 6 H 5 )][B(C 6 F 5 ) 4 ]/Al(i-butyl) 3 , was investigated by means of 150 MHz 13 C NMR spectroscopic microstructural polymer analysis. The asymmetric induction was traced unambigously to enantiotopic-sites control. Compared with the better-known cyclopentadienyl-fluorenyl ansa-zirconcenes, 1 turned out ot be almost identically enantioselective (in agreement with computer modeling), but less stereoselective because of a higher propensity to undergo site epimerization. This results in a chain microstructure with large predominance of m over mm stereodefects, deceptively similar to that of syndiotactic poly(propylene) produced under chain-end control.

Published
2003
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75. Propene/Ethene-[1-13C] Copolymerization as a Tool for Investigating Catalyst Regioselectivity. 2. The MgCl2/TiCl4−AlR3 System

Author

Carmen Polzone, Giovanni Talarico, Roberta Cipullo, Vincenzo Busico, John C. Chadwick, Busico, Vincenzo, Cipullo, Roberta, Polzone, Carmen, Talarico, Giovanni, Chadwick John, C., Polzone, C., Talarico, G., Chadwick, J. C., Cipullo, R, and Polzone, C

Subjects
Polymers and Plastics, Organic Chemistry, Industrial catalysts, Regioselectivity, OLEFIN POLYMERIZATION, Catalysis, Inorganic Chemistry, Propene, chemistry.chemical_compound, chemistry, Polymerization, Polymer chemistry, Materials Chemistry, Copolymer, Lewis acids and bases, Ziegler–Natta catalyst
Abstract

The propene/ethene-[1-C-13] Copolymerization method has been applied to measure precisely the regioselectivity in propene polymerization of the "simple" MgCl2/TiCl4 catalyst (activated with Al((i)-Bu)(3)) which can be viewed as the ancestor of all present-day MgCl2-supported industrial catalysts containing Lewis bases as selective modifiers. It has been found that the average content of 2,1-regiomistakes in the polypropylene produced is fairly high (ca. 0.7 mol %), although-not unexpectedly, due to the multisite catalyst nature-these are distributed rather nonuniformly throughout the polymer. The difficulty in detecting the 2,1-units, despite their relatively high concentration, in the C-13 NMR spectra of homopolymer samples at natural C-13 abundance has been traced to their occurrence in a variety of stereochemical environments, which leads to splitting and broadening of the corresponding resonances. The fraction of "dormant" polypropylene chains with a 2,1-last-inserted unit was estimated to be in the 20-50% range. QM calculations of regioselectivity on classical Corradini-type models of epitactic octahedral catalytic Ti species turned out to be in basic agreement with the experiment.

Published
2003
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77. The strange case of the 'oscillating' catalysts

Author

Giovanni Talarico, Winfried P. Kretschmer, Roberta Cipullo, Michele Vacatello, Valeria Van Axel Castelli, Busico, Molecular Inorganic Chemistry, Busico, Vincenzo, Cipullo, Roberta, G., Talarico, Vacatello, Michele, Kretschmer, W. P., VAN AXEL CASTELLI, V., Busico, V, Cipullo, R, Talarico, Giovanni, Vacatello, M, Kretschmer, Winfried, Van Axel Castelli, Valeria, Talarico, G., and Vacatello, M.

Subjects
METHYLALUMINOXANE MAO, Polymers and Plastics, ZIEGLER-NATTA CATALYSTS, PROPYLENE POLYMERIZATION, Organic Chemistry, ELASTOMERIC POLYPROPYLENE, REGIOREGULAR POLYPROPYLENES, Chain transfer, METALLOCENE CATALYSTS, OLEFIN POLYMERIZATION, Condensed Matter Physics, Catalysis, Propene, chemistry.chemical_compound, C-13 NMR-SPECTRA, Monomer, chemistry, Polymerization, Tacticity, Polymer chemistry, Materials Chemistry, FULL ASSIGNMENT, Thermoplastic elastomer, PROPENE POLYMERIZATION, Metallocene
Abstract

The field of stereoselective propene polymerization has been dramatically innovated by the discovery of homogeneous metallocene-based catalysts with well-defined and tunable molecular structure. Of all, "oscillating" metallocenes are probably the most ingenious and challenging example of catalyst design. Their catalytic species were built to "flip-flop" between a chiral and an achiral conformation, at a rate intermediate between those of monomer insertion and chain transfer. The result of this molecular switching would be a polypropylene with an isotactic/atactic stereoblock structure, performing as a thermoplastic elastomer. This essay discusses how the real polymerization mechanism differs from what the catalyst inventors had in mind, but also how - through fortunate circumstances their optimism has been rewarded.

Published
2002

78. 'Oscillating' Metallocene Catalysts: How Do They Oscillate?

Author

Winfried P. Kretschmer, Giovanni Talarico, Vincenzo Busico, Valeria Van Axel Castelli, Roberta Cipullo, Michele Vacatello, Busico, Vincenzo, Cipullo, R., Kretschmer, W. P., Talarico, G., Vacatello, M., VAN AXEL CASTELLI, V., Molecular Inorganic Chemistry, Stratingh Institute of Chemistry, Cipullo, Roberta, Kretschmer Winfried, P, Talarico, Giovanni, Vacatello, Michele, and Van Axel Castelli, Valeria

Subjects
Reaction mechanism, Materials science, PROPYLENE POLYMERIZATION, REGIOREGULAR POLYPROPYLENES, Homogeneous catalysis, Photochemistry, Catalysis, C-13 NMR-SPECTRA, chemistry.chemical_compound, Olefin polymerization, PROPENE POLYMERIZATION, Polypropylene, ELASTOMERIC POLYPROPYLENE, General Medicine, General Chemistry, metallocenes, OLEFIN POLYMERIZATION, homogeneous catalysis, ZIEGLER-NATTA, reaction mechanisms, chemistry, Polymerization, polymerization, FULL ASSIGNMENT, oscillating metallocenes, COMPLEXES, STEREOCONTROL, Metallocene, polypropylene
Abstract

Based on the results of a series of propylene polymns. using oscillating metallocene catalysts of type [(2-Ar-indenyl)2ZrCl2] (Ar = C6H5 or 3,5-(t-Bu)2-4-MeO-C6H2) with various cocatalysts (MAO, TIBAl), the oscillating behavior of the zirconocenes is discussed with respect to the rac/meso stereochem. outcome of the obtained polypropylenes. These catalysts can change their stereoselectivity depending on their interaction with the reaction system (cocatalyst, solvent, counterion).

Published
2002
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80. Improving the performance of methylalumoxane: a facile and efficient method to trap 'free' trimethylaluminum

Author

Busico, Cutillo F, Sara Ronca, Bing Wang, Roberta Cipullo, Nicolaas Hendrika Friederichs, Busico, Vincenzo, Cipullo, Roberta, Cutillo, Francesco, Friederichs, Nic, Ronca, Sara, Wang, Bing, Cutillo, F, Friederichs, N, Ronca, S, Wang, B., Cipullo, R., Cutillo, F., Friederichs, N., Ronca, S., F., Cutillo, and S., Ronca

Subjects
chemistry.chemical_classification, Steric effects, General Chemistry, Biochemistry, Catalysis, law.invention, Propene, chemistry.chemical_compound, Colloid and Surface Chemistry, Hydrocarbon, chemistry, Polymerization, law, Polymer chemistry, Phenol, Metallocene, Distillation
Abstract

The presence of "free" trimethylaluminum (TMA) in methylalumoxane (MAO) solutions can be highly detrimental to the performance of metallocene and "post-metallocene" olefin polymerization catalysts. The most used strategy to remove "free" TMA is to evaporate MAO solutions to dryness, until a free-flowing white powder ("solid MAO") is left. This procedure is tedious and potentially hazardous, because in some cases the distillate is a concentrated hydrocarbon solution of TMA. Moreover, "solid MAO" is poorly soluble in common polymerization media, and once in solution it can regenerate TMA to some extent. This communication reports on a facile alternative, which consists in the controlled addition of a sterically hindered phenol, such as 2,6-di-tert-butylphenol, effectively trapping "free" TMA. We show here that 2,6-di-tert-butylphenol/MAO solutions activate equally well the dichloro-precursors of well-known zirconocene and bis(phenoxyimine)Ti catalysts, and that their use in propene polymerization results in a substantially higher productivity, polymer stereoregularity, and/or average molecular mass compared with activation by MAO alone.

Published
2003

81. The First Molecularly Characterized Isotactic Polypropylene-block-polyethylene Obtained via 'Quasi-Living' Insertion Polymerization

Author

Vincenzo Busico, Roberta Cipullo, Nic Friederichs, Maria Togrou, Sara Ronca, Busico, Vincenzo, Cipullo, Roberta, Friederichs, Nic, Ronca, Sara, Togrou, Maria, S., Ronca, Friederichs, N., Togrou, M., Cipullo, R., and Ronca, S.

Subjects
Inorganic Chemistry, chemistry.chemical_compound, Polymers and Plastics, Polymerization, Chemistry, Tacticity, Block (telecommunications), Organic Chemistry, Polymer chemistry, Materials Chemistry, Polyethylene
Abstract

The synthesis of PE-block-iPP with a Zr-based postmetallocene catalyst was carried out. 13C NMR provided direct and complete evidence of a true block nature for a polyolefin-based material containing a polypropylene block of any tacticity.

Published
2003

82. Active species in heterogeneous Ziegler-Natta catalysts: 'the father of all models'

Author

BUSICO V, CIPULLO, ROBERTA, TALARICO, GIOVANNI, TERANO M., OTSUKA, N., Busico, Vincenzo, Cipullo, R., Talarico, G., Busico, V, Cipullo, Roberta, and Talarico, Giovanni

Abstract

A general model of the catalytic species on the surface of heterogeneous Ziegler-Natta catalysts (either TiCl3-based or MgCl2-supported), based on the statistical analysis of their high-field 13C NMR "fingerprint" in the polymerization products, is presented and discussed.

Published
2001

83. Microstructure of polypropylene

Author

Roberta Cipullo, Vincenzo Busico, Busico, Vincenzo, Cipullo, Roberta, and Cipullo, R.

Subjects
Polypropylene, chemistry.chemical_classification, Materials science, Polymers and Plastics, Polymer science, Organic Chemistry, Surfaces and Interfaces, Polymer, Microstructure, chemistry.chemical_compound, chemistry, Tacticity, Materials Chemistry, Ceramics and Composites, Olefin polymerization, Polymerization catalysts, Ziegler–Natta catalyst, Metallocene
Abstract

For over thirty years after the discovery of stereoselective olefin polymerization in 1954, the word ‘polypropylene’ has meant, both scientifically and commercially, little else than the predominantly isotactic polymer achievable with the classical heterogeneous Ziegler–Natta catalysts. The picture, however, has changed dramatically in the last 15 years, due to the development of a variety of new transition metal catalysts with tunable structures and selectivities. Nowadays, ‘polypropylene’ means a whole world of innovative polymers with novel and well-controlled microstructures, and — as a result — tailored properties and applications. With the powerful aid of high-field 13 C NMR data, this review aims at introducing the reader to this fascinating and challenging frontier of macromolecular stereochemistry.

Published
2001

84. Automated Ultra-Fast 13 C NMR Analysis of Polyolefin Materials.

Author

Giampaolo F, Cipullo R, Cuomo S, Piccialli F, and Busico V

Abstract

Polyolefins are unique among synthetic polymers because their wide application envelope originates from a finely controlled microstructure of hydrocarbon chains, lacking any distinctive functional groups. This hampers the methods of automated sorting based on vibrational spectroscopies and calls for much more complex 13 C NMR elucidations. High-temperature cryoprobes have dramatically shortened the acquisition time of 13 C NMR spectra, and few minutes are now enough for polyolefin classification purposes; however, conventional data analysis remains labor and time-consuming. In this paper, we introduce an instrument for automated fast determinations of the 13 C NMR microstructure on polyolefin materials, implemented by integrating High-Throughput Experimentation and Data Science tools and methods. From the scientific standpoint, the main interest of the approach is the solution proposed to address the general problem how to rapidly characterize statistically distributed analytes, of which synthetic polymers are a most important case. In practical terms, the instrument represents the first automated tool for microstructural polyolefin analysis: it is readily applicable to monomaterials, whereas extension to multimaterials, including postconsumer streams, is feasible but still requires some work.

Published
2025
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85. α-Olefin Oligomerization Mediated by Group 4 Metallocene Catalysts: An Extreme Manifestation of the Multisite Nature of Methylaluminoxane.

Author

Zaccaria F, Vittoria A, Antinucci G, Cipullo R, and Busico V

Abstract

Group 4 metallocenes are competent catalysts for the oligomerization of higher α-olefins. Among the many chemical and physical variables of importance in the process, one is the choice of cocatalyst (activator). The impact of various activators on the performance of a representative catalyst, (nBuCp) 2 ZrCl 2 , in the oligomerization of 1-octene was thoroughly investigated; in particular, the molecular weight distribution (MWD) of the oligomers was determined by means of high-resolution high performance liquid chromatography (HR-HPLC). Unexpectedly, a bimodal MWD was highlighted when the precatalyst was activated with methylaluminoxane (MAO), whereas a single Schulz-Flory (SF) MWD was observed with borate salts. The presence of Al centers with different Lewis acidity in the complex and ill-defined structure of MAO is well known, and the broadening effects on the MWD of olefin polymerization products made with metallocene/MAO catalyst systems have been reported before. However, to the best of our knowledge, clear HR-HPLC evidence of two active species resulting from activation with MAO of one single zirconocene precursor, yielding two discrete SF product distributions, is unprecedented. By varying the polarity of the reaction medium, we managed to modulate the MWD of the oligomers from bimodal to monomodal, even with MAO, thus demonstrating that ion pairing effects are behind these unusual findings.

Published
2024
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86. Triptycene as a scaffold in metallocene catalyzed olefin polymerization.

Author

Kulyabin PS, Sharikov MI, Izmer VV, Kononovich DS, Goryunov GP, Alexeev NV, Uborsky DV, Vittoria A, Antinucci G, Ehm C, Budzelaar PHM, Cipullo R, Busico V, and Voskoboynikov AZ

Abstract

A set of metallocene olefin polymerization catalysts bearing triptycene moieties in either position 4-5 (complexes Ty1-Ty5) or in position 5-6 (complexes Ty6-Ty8) of the basic dimethylsilyl-bridged bis(indenyl) system has been tested in propene polymerization and in ethene/1-hexene copolymerization. Comparison of the results with QSPR (quantitative structure-property relationship) predictions not parametrized for these exotic ligand variations demonstrates that trends can still be identified by extrapolation. Interestingly, Ty7, upon suitable activation, provides a highly isotactic polypropylene with an exceptional amount of 2,1 regio-errors (8%). The previously developed QSPR type models successfully predicted the low regioselectivity of this catalyst, despite the fact that the catalyst structure differs significantly from the benchmark set.

Published
2024
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87. Cocatalyst effects in Hf-catalysed olefin polymerization: taking well-defined Al-alkyl borate salts into account.

Author

Urciuoli G, Zaccaria F, Zuccaccia C, Cipullo R, Budzelaar PHM, Vittoria A, Ehm C, Macchioni A, and Busico V

Abstract

Hafnium catalysts for olefin polymerization are often very sensitive to the nature of cocatalysts, especially if they contain "free" aluminium trialkyls. Herein, cocatalyst effects in Hf-catalysed propene polymerization are examined for four Hf catalysts belonging to the family of C S -symmetric (Hf-CS-Met) and C 2 -symmetric (Hf-C2-Met) metallocenes, as well as of octahedral (Hf-OOOO) and pentacoordinated (Hf-PyAm) "post-metallocenes". The performance of the recently developed {[iBu 2 (PhNMe 2 )Al] 2 (μ-H)} + [B(C 6 F 5 ) 4 ] - (AlHAl) cocatalyst is compared with that of established systems like methylalumoxane, phenol-modified methylalumoxane and trityl borate/tri-iso-butylaluminium. The worst catalytic performance is observed with MAO. Conversely, the best cocatalyst varies depending on the Hf catalyst used and the performance indicator of interest, highlighting the complexity and importance of selecting the right precatalyst/cocatalyst combination. AlHAl proved to be a suitable system for all catalysts tested and, in some cases, it provides the best performance in terms of productivity ( e.g. with hafnocenes). Furthermore, it generally leads to high molecular weight polymers, also with catalysts enabling easy chain transfer to Al like Hf-PyAm. This suggests that AlHAl has a low tendency to form heterodinuclear adducts with the cationic active species, therefore preventing the formation of dormant sites and/or termination events by chain transfer to Al.

Published
2024
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88. Octahedral Zirconium Salan Catalysts for Olefin Polymerization: Substituent and Solvent Effects on Structure and Dynamics.

Author

Dall'Anese A, Kulyabin PS, Uborsky DV, Vittoria A, Ehm C, Cipullo R, Budzelaar PHM, Voskoboynikov AZ, Busico V, Tensi L, Macchioni A, and Zuccaccia C

Abstract

Group 4 metal-Salan olefin polymerization catalysts typically have relatively low activity, being slowed down by a pre-equilibrium favoring a non-polymerization active resting state identified as a mer-mer isomer (MM); formation of the polymerization active fac-fac species (FF) requires isomerization. We now show that the chemistry is more subtle than previously realized. Salan variations bearing large, flat substituents can achieve very high activity, and we ascribe this to the stabilization of the FF isomer, which becomes lower in energy than MM. Detailed in situ NMR studies of a fast ( o -anthracenyl) and a slow ( o - t Bu) Salan precursors, suitably activated, indicate that preferred isomers in solution are different: the fast catalyst prefers FF while the slow catalyst prefers a highly distorted MM geometry. Crystal structures of the activated o -anthracenyl substituted complex with a moderately (chlorobenzene) and, more importantly, a weakly coordinating solvent (toluene) in the first coordination sphere emphasize that the active FF isomer is preferred, at least for the benzyl species. Site epimerization (SE) barriers for the fast catalyst (Δ S > 0, dissociative) and the slow catalyst (Δ S < 0, associative) in toluene corroborate the solvent role. Diagnostic NMe 13 C chemical shift differences allow unambiguous detection of FF or MM geometries for seven activated catalysts in different solvents, highlighting the role of solvent coordination strength and bulkiness of the ortho -substituent on the isomer equilibrium. For the first time, active polymeryl species of Zr-Salan catalysts were speciated. The slow catalyst is effectively trapped in the inactive MM state, as previously suggested. Direct observation of fast catalysts is hampered by their high reactivity, but the product of the first 1-hexene insertion maintains its FF geometry.

Published
2023
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89. A Hydrocarbon Soluble, Molecular and "Complete" Al-Cocatalyst for High Temperature Olefin Polymerization.

Author

Urciuoli G, Zaccaria F, Zuccaccia C, Cipullo R, Budzelaar PHM, Vittoria A, Ehm C, Macchioni A, and Busico V

Abstract

The dinuclear aluminum salt {[ i Bu 2 (DMA)Al] 2 ( μ -H)} + [B(C 6 F 5 ) 4 ] - ( AlHAl ; DMA = N , N -dimethylaniline) is the prototype of a new class of molecular cocatalysts for catalytic olefin polymerization, its modular nature offering easy avenues for tailoring the activator to specific needs. We report here, as proof of concept, a first variant ( s-AlHAl ) bearing p -hexadecyl- N , N -dimethylaniline (DMA C16 ) units, which enhances solubility in aliphatic hydrocarbons. The novel s-AlHAl was used successfully as an activator/scavenger in ethylene/1-hexene copolymerization in a high-temperature solution process., Competing Interests: The authors declare no conflict of interest.

Published
2023
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90. A High-Throughput Approach to Repurposing Olefin Polymerization Catalysts for Polymer Upcycling.

Author

Cannavacciuolo FD, Yadav R, Esper A, Vittoria A, Antinucci G, Zaccaria F, Cipullo R, Budzelaar PHM, Busico V, Goryunov GP, Uborsky DV, Voskoboynikov AZ, Searles K, Ehm C, and Veige AS

Abstract

Efficient and economical plastic waste upcycling relies on the development of catalysts capable of polymer degradation. A systematic high-throughput screening of twenty-eight polymerization catalyst precursors, belonging to the catalyst families of metallocenes, ansa-metallocenes, and hemi- and post-metallocenes, in cis-1,4-polybutadiene (PB) degradation reveals, for the first time, important structure-activity correlations. The upcycling conditions involve activation of the catalysts (at 0.18 % catalyst loading) with tri-iso-butyl aluminum at 50 °C in toluene. The data indicate the ability to degrade PB is a general reactivity profile of neutral group 4 metal hydrides. A simple quantitative-structure activity relationship (QSAR) model utilizing two descriptors for the distribution of steric bulk in the active pocket and one measuring the metal ion electrophilicity reveals the degradation ability improves with increased but not overbearing steric congestion and lower electrophilicity., (© 2022 Wiley-VCH GmbH.)

Published
2022
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91. ansa -Zirconocene Catalysts for Isotactic-Selective Propene Polymerization at High Temperature: A Long Story Finds a Happy Ending.

Author

Kulyabin PS, Goryunov GP, Sharikov MI, Izmer VV, Vittoria A, Budzelaar PHM, Busico V, Voskoboynikov AZ, Ehm C, Cipullo R, and Uborsky DV

Abstract

Absolute rigidity is rare in the "soft" world of organometallics. Here we introduce two cyclopenta[ a ]triptycyl ansa -zirconocene catalysts for isotactic-selective propene polymerization, designed by means of an integrated high-throughput experimentation/quantitative structure-activity relationship modeling approach. An ultrarigid ligand precisely wrapped around the Zr center enforces an enzyme-like lock and key fit, effectively hampering undesired reactive events, even at high temperature. Stereodefective units are hardly detectable by 13 C NMR in the polymer produced at 120 °C; this corresponds to an enantioselectivity exceeding 6-7 kcal/mol: i.e., less than 1 propene misinsertion every 4000 (and at room temperature, one every ∼40000!).

Published
2021
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92. On the limits of tuning comonomer affinity of 'Spaleck-type'ansa-zirconocenes in ethene/1-hexene copolymerization: a high-throughput experimentation/QSAR approach.

Author

Ehm C, Vittoria A, Goryunov GP, Izmer VV, Kononovich DS, Samsonov OV, Budzelaar PHM, Voskoboynikov AZ, Busico V, Uborsky DV, and Cipullo R

Abstract

For a set of 40 silicon-bridged C 2 -symmetric ansa-zirconocenes, reactivity ratios in ethene/1-hexene copolymerization were experimentally determined by means of an accurate high-throughput experimentation (HTE) approach, and used to develop quantitative structure-activity relationship (QSAR) models for comonomer affinity using chemically meaningful descriptors. These QSAR models rely almost exclusively on steric descriptors, with the single most important descriptor being the 'openness' of the open quadrants. Catalysts with an unobstructed main insertion pathway, i.e. without substituents affecting the open quadrant, show a remarkable insensitivity to further substituent effects, be it in 2-, 4-, 5-, 6- or 7-position or the bridge. We attribute this insensitivity to a shift in rate-limiting step for the comonomer incorporation, from insertion to olefin capture, with the latter being much less sensitive to modulation of the active pocket than the former. This indicates that our best incorporators are already close to the upper limit for comonomer affinity within this catalyst class.

Published
2020
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93. An Integrated High Throughput Experimentation/Predictive QSAR Modeling Approach to ansa -Zirconocene Catalysts for Isotactic Polypropylene.

Author

Ehm C, Vittoria A, Goryunov GP, Izmer VV, Kononovich DS, Samsonov OV, Di Girolamo R, Budzelaar PHM, Voskoboynikov AZ, Busico V, Uborsky DV, and Cipullo R

Abstract

Compared to heterogenous Ziegler-Natta systems (ZNS), ansa -metallocene catalysts for the industrial production of isotactic polypropylene feature a higher cost-to-performance balance. In particular, the C 2 -symmetric bis (indenyl) ansa -zirconocenes disclosed in the 1990s are complex to prepare, less stereo- and/or regioselective than ZNS, and lose performance at practical application temperatures. The golden era of these complexes, though, was before High Throughput Experimentation (HTE) could contribute significantly to their evolution. Herein, we illustrate a Quantitative Structure - Activity Relationship (QSAR) model trained on a robust and highly accurate HTE database. The clear-box QSAR model utilizes, in particular, a limited number of chemically intuitive 3D geometric descriptors that screen various regions of space in and around the catalytic pocket in a modular way thus enabling to quantify individual substituent contributions. The main focus of the paper is on the methodology, which should be of rather broad applicability in molecular organometallic catalysis. Then again, it is worth emphasizing that the specific application reported here led us to identify in a comparatively short time novel zirconocene catalysts rivaling or even outperforming all previous homologues which strongly indicates that the metallocene story is not over yet.

Published
2020
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94. Reactivity Trends of Lewis Acidic Sites in Methylaluminoxane and Some of Its Modifications.

Author

Zaccaria F, Budzelaar PHM, Cipullo R, Zuccaccia C, Macchioni A, Busico V, and Ehm C

Abstract

The established model cluster (AlOMe) 16 (AlMe 3 ) 6 for methylaluminoxane (MAO) cocatalyst has been studied by density functional theory, aiming to rationalize the different behaviors of unmodified MAO and TMA-depleted MAO/BHT (TMA = trimethylaluminum; BHT = 2,6-di- tert -butyl-4-methylphenol), highlighted in previous experimental studies. The tendency of the three model Lewis acidic sites A - C to release neutral Al fragments (i.e., AlMe 2 R; R = Me or bht) or transient aluminum cations (i.e., [AlMeR] + ) has been investigated both in the absence and in the presence of neutral N-donors. Sites C are most likely responsible for the activation capabilities of TMA-rich MAO, but TMA depletion destabilizes them, possibly inducing structural rearrangements. The remaining sites A and B , albeit of lower Lewis acidity, should be still able to release cationic Al fragments when TMA-depleted modified MAOs are treated with N-donors (e.g. [AlMe(bht)] + from MAO/BHT). These findings provide tentative interpretations for earlier observations of donor-dependent ionization tendencies of MAO and MAO/BHT and how TMA depleted MAOs can still be potent activators.

Published
2020
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95. C 1 -Symmetric Si-bridged (2-indenyl)(1-indenyl) ansa-metallocenes as efficient ethene/1-hexene copolymerization catalysts.

Author

Uborsky DV, Mladentsev DY, Guzeev BA, Borisov IS, Vittoria A, Ehm C, Cipullo R, Hendriksen C, Friederichs N, Busico V, and Voskoboynikov AZ

Abstract

In the search for more efficient single-center ethene/α-olefin copolymerization catalysts, metallocenes bearing a 2-indenyl substituent pattern have largely been ignored in the past. Here, we show that such a structural motif yields competent linear low-density polyethylene (LLDPE) catalysts. They are also relatively easy to synthesize, allowing for a wide structural amplification. A screening of 28 catalysts reveals that the lead catalyst in this study displays high comonomer affinity and molecular weight capability at industrially relevant temperatures. QSAR models show that steric factors likely contribute stronger than electronic factors to the observed substituent trends, both for comonomer affinity and MW capability.

Published
2020
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96. Donor hypernatremia and smoking addiction contribute to primary graft failure in heart transplantation.

Author

Finger MA, Cipullo R, Rossi Neto JM, Dos Santos CC, Contreras CA, Chaccur P, Dinkhuysen JJ, de Souza R, Dias França JI, and Lin-Wang HT

Subjects
Adult, Female, Follow-Up Studies, Graft Rejection pathology, Graft Survival, Humans, Male, Middle Aged, Postoperative Complications pathology, Prognosis, Retrospective Studies, Risk Factors, Graft Rejection etiology, Heart Transplantation adverse effects, Hypernatremia physiopathology, Postoperative Complications etiology, Smoking physiopathology, Tissue Donors supply & distribution
Abstract

Introduction: Primary graft failure (PGF) is an important contributor to early mortality, accounting for 41% of deaths within the first 30 days after heart transplantation (HT). Donor hypernatremia has been associated with PGF development. However, controversial data exist regarding the impact of sodium deregulation in patient survival after HT. This study aimed to assess the influence of donor hypernatremia on PGF development and to determine the serum sodium level threshold to assist in decision-making for organ procurement., Methods: The medical record from 200 HT patients and organ donors were retrospectively assessed and categorized by PGF occurrence. Donor sodium levels were compared and cut-off points obtained by receiver operating characteristic (ROC) curve. A multiple logistic regression model was applied to assess the effects of factors and covariates that influence PGF development., Results: Sodium levels of donors were significantly higher in recipients who developed PGF than those who did not develop PGF (162 vs. 153 mmol/L, P = .001). The sodium cut-off value determined by the ROC curve was 159 mmol/L. The group who received organs from donors with a serum sodium concentration ≥159 mmol/L had a higher incidence of PGF (63.3% vs 32.4%, P < .001). Furthermore, donor sodium levels ≥159 mmol/L increased the likelihood of recipients developing PGF by 3.4 times. It is also observed that the incidence of donor smoking addiction was significantly higher in the PGF group (28.6% vs. 11.5%, P = .004) and donor smoking addiction increased the risk of developing PGF by 2.8 times., Conclusion: Smoking addiction and the application of suboptimal organs from donors with hypernatremia contribute to primary graft failure in heart transplantation., (© 2019 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published
2019
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97. Extraction of Reliable Molecular Information from Diffusion NMR Spectroscopy: Hydrodynamic Volume or Molecular Mass?

Author

Zaccaria F, Zuccaccia C, Cipullo R, and Macchioni A

Abstract

Measuring accurate translational self-diffusion coefficients (D t ) by NMR techniques with modern spectrometers has become rather routine. In contrast, the derivation of reliable molecular information therefrom still remains a nontrivial task. In this paper, two established approaches to estimating molecular size in terms of hydrodynamic volume (V H ) or molecular weight (M) are compared. Ad hoc designed experiments allowed the critical aspects of their application to be explored by translating relatively complex theoretical principles into practical take-home messages. For instance, comparing the D t values of three isosteric Cp 2 MCl 2 complexes (Cp=cyclopentadienyl, M=Ti, Zr, Hf), having significantly different molecular mass, provided an empirical demonstration that V H is the critical molecular property affecting D t . This central concept served to clarify the assumptions behind the derivation of D t =ƒ(M) power laws from the Stokes-Einstein equation. Some pitfalls in establishing log (D t ) versus log (M) linear correlations for a set of species have been highlighted by further investigations of selected examples. The effectiveness of the Stokes-Einstein equation itself in describing the aggregation or polymerization of differently shaped species has been explored by comparing, for example, a ball-shaped silsesquioxane cage with its cigar-like dimeric form, or styrene with polystyrene macromolecules., (© 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2019
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98. Intragraft vasculitis and gene expression analysis: Association with acute rejection and prediction of mortality in long-term heart transplantation.

Author

Lin-Wang HT, Cipullo R, Dias França JI, Finger MA, Rossi Neto JM, Correia EB, Dinkhuysen JJ, and Hirata MH

Subjects
Female, Follow-Up Studies, Graft Rejection etiology, Graft Survival, Heart Transplantation adverse effects, Humans, Longitudinal Studies, Male, Middle Aged, Postoperative Complications, Prognosis, Retrospective Studies, Risk Factors, Survival Rate, Vasculitis etiology, Gene Expression Profiling, Graft Rejection diagnosis, Graft Rejection mortality, Heart Transplantation mortality, Vasculitis diagnosis, Vasculitis mortality
Abstract

Introduction: Vasculitis entails heterogeneous origins; it starts with an inflammatory process that leads to small vessels' necrosis, hemorrhage, and ischemic lesion, and may further result in occlusion of the vascular lumen. Vasculitis' contribution to allograft rejection is still unclear. This study aims to investigate the incidence of vasculitis in the early stages of heart transplantation as well as to assess the intragraft genes' expression associated with vascular function and subsequently to verify the way in which it affects the outcome of the allograft., Methods: In this retrospective study, 300 archive paraffin-embedded endomyocardial biopsies from 63 heart allograft recipients were assessed. Cellular rejection and vasculitis were diagnosed through histological analysis, and antibody-mediated rejection was performed with immunohistochemical C4d staining. The transcripts of ICAM, VCAM, VEGF, CCL2, IFNG, TGFB, TNF, ADIPOR1, and ADIPOR2 genes were examined through quantitative polymerase chain reaction using B2M for normalization., Results: We observed a higher prevalence of severe vasculitis in the early period of post-transplant, and recovery was observed to take place around 1 year post-transplant. Additionally, vasculitis was found to be directly associated with acute cellular rejection and antibody-mediated rejection. The intense C4d capillary positivity predicts higher long-term cardiovascular disease mortality. In comparison with the vasculitis-free group, the group with severe vasculitis displayed reduced left ventricular ejection fraction and an upregulation of VCAM and IFNG associated with the downregulation of VEGF, ADIPOR1, and ADIPOR2., Conclusion: The vasculitis associated with the presence of C4d and the change in intragraft gene expression profile may contribute to poor allograft outcomes., (© 2018 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published
2018
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99. Assignment of Regioirregular Sequences in the 13 C NMR Spectrum of Syndiotactic Polypropylene.

Author

Cipullo R, Vittoria A, and Busico V

Abstract

The 13 C NMR microstructure of a polypropylene (PP) sample is a fundamental source of information on its properties, and also a 'fingerprint' of the catalytic species used to produce it. Likely due to a much greater technological importance, isotactic polymers (i-PP) have been more thoroughly investigated that syndiotactic ones (s-PP). In this paper, we report the first full assignment of regioirregular sequences in s-PP samples made with two well-known molecular catalysts, namely a C s -symmetric (cyclopentadienyl)(fluorenyl) ansa -zirconocene and a fluxional bis(phenoxyimine)Ti species. The results shed more light on the mechanism of chain propagation at the two catalysts, and open the door to the investigation of more elusive cases like the formation of s-PP blocks in the presence of multi-sited heterogeneous Ziegler-Natta systems.

Published
2018
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100. Down regulation of protective genes is associated with cellular and antibody-mediated rejection.

Author

Lin-Wang HT, Cipullo R, Dinkhuysen JJ, Finger MA, Rossi JM, Correia EB, and Hirata MH

Subjects
Adult, Biomarkers analysis, Female, Follow-Up Studies, Graft Rejection etiology, Graft Rejection metabolism, Graft Survival, Humans, Male, Middle Aged, Myocardium immunology, Myocardium pathology, Prognosis, Risk Factors, Biomarkers metabolism, Graft Rejection diagnosis, Heart Transplantation adverse effects, Isoantibodies adverse effects, Myocardium metabolism, Postoperative Complications, Protective Agents metabolism
Abstract

Despite advances in immunosuppressive therapy, rejection still remains the main obstacle to a successful transplant. This study aims to explore the gene expression profile of the rejection process in order to decrease the number of unnecessary endomyocardial biopsies in stable patients., Methods: A total of 300 formalin-fixed and paraffin-embedded (FFPE) endomyocardial biopsies sampled from 63 heart allograft recipients were included in this study. Acute cellular rejection (ACR) and antibody-mediated rejection (AMR) were diagnosed by histological analysis and immunohistochemical C4d staining, respectively. Analysis of gene expression was performed by quantitative real-time polymerase chain reaction. The samples were grouped according to the ISHLT rejection classification, aiming the statistical analysis., Results: There was a significant decrease in the HMOX1, AIF1, and CCL2 transcript over the post-transplantation period in non-rejection group (P<.001). Furthermore, the ADIPOR1, ADIPOR2, BCL2L1, and VEGFA protective genes were significantly downregulated in the ACR group (P<.05). ADIPOR2, BCL2L1, IL6, and NOS2 genes were also significantly downregulated in the AMR group than in the non-rejection group (P<.05)., Conclusion: The downregulations of the protective genes contribute to the allograft rejection, and the archived FFPE samples are useful for the gene expression analysis aiming the allograft rejection surveillance., (© 2017 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published
2017
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