Your search keyword '"de León, Ramón"' showing total 4 results

1. Coordinative Chain Transfer Polymerization of Sustainable Terpene Monomers Using a Neodymium-Based Catalyst System.

Author

Córdova, Teresa, Enríquez-Medrano, Francisco Javier, Cartagena, Eduardo Martínez, Villanueva, Arnulfo Banda, Valencia, Luis, Álvarez, Edgar Nazareo Cabrera, González, Ricardo López, and Díaz-de-León, Ramón

Subjects

MONOMERS, ZIEGLER-Natta catalysts, POLYMERIZATION, TERPENES, MOLECULAR weights, CATALYSTS, MYRCENE

Abstract

The present investigation involves the coordinative chain transfer polymerization (CCTP) of biobased terpenes in order to obtain sustainable polymers from myrcene (My) and farnesene (Fa), using the ternary Ziegler–Natta catalyst system comprising [NdV3]/[Al(i-Bu)2H]/[Me2SiCl2] and Al(i-Bu)2H, which acts as cocatalyst and chain transfer agent (CTA). The polymers were produced with a yield above 85% according to the monomeric consumption at the end of the reaction, and the kinetic examination revealed that the catalyst system proceeded with a reversible chain transfer mechanism in the presence of 15–30 equiv. of CTA. The resulting polyterpenes showed narrow molecular weight distributions (Mw/Mn = 1.4–2.5) and a high percent of 1,4-cis microstructure in the presence of 1 equiv. of Me2SiCl2, having control of the molecular weight distribution in Ziegler–Natta catalytic systems that maintain a high generation of 1,4-cis microstructure. [ABSTRACT FROM AUTHOR]

Published

2022

2. Synthesis and Vulcanization of Polymyrcene and Polyfarnesene Bio-Based Rubbers: Influence of the Chemical Structure over the Vulcanization Process and Mechanical Properties.

Author

Banda-Villanueva, Arnulfo, González-Zapata, José Luis, Martínez-Cartagena, Manuel Eduardo, Magaña, Ilse, Córdova, Teresa, López, Ricardo, Valencia, Luis, Medina, Sergio García, Rodríguez, Alejandro Medina, Soriano, Florentino, and Díaz de León, Ramón

Subjects

VULCANIZATION, CHEMICAL structure, THERMOPLASTIC elastomers, MOLECULAR weights, DOUBLE bonds, RUBBER

Abstract

The overuse of fossil-based resources to produce thermoplastic materials and rubbers is dramatically affecting the environment, reflected in its clearest way as global warming. As a way of reducing this, multiple efforts are being undertaken including the use of more sustainable alternatives, for instance, those of natural origin as the main feedstock alternative, therefore having a lower carbon footprint. Contributing to this goal, the synthesis of bio-based rubbers based on β-myrcene and trans-β-farnesene was addressed in this work. Polymyrcene (PM) and polyfarnesene (PF) were synthesized via coordination polymerization using a neodymium-based catalytic system, and their properties were compared to the conventional polybutadiene (PB) and polyisoprene (PI) also obtained via coordination polymerization. Moreover, different average molecular weights were also tested to elucidate the influence over the materials' properties. The crosslinking of the rubbers was carried out via conventional and efficient vulcanization routes, comparing the final properties of the crosslinking network of bio-based PM and PF with the conventional fossil-based PB and PI. Though the mechanical properties of the crosslinked rubbers improved as a function of molecular weight, the chemical structure of PM and PF (with 2 and 3 unsaturated double bonds, respectively) produced a crosslinking network with lower mechanical properties than those obtained by PB and PI (with 1 unsaturated double bond). The current work contributes to the understanding of improvements (in terms of crosslinking parameters) that are required to produce competitive rubber with good sustainability/performance balance. [ABSTRACT FROM AUTHOR]

Published

2022

3. Controlled (Co)Polymerization of Methacrylates Using a Novel Symmetrical Trithiocarbonate RAFT Agent Bearing Diphenylmethyl Groups.

Author

Robles Grana, Alvaro Leonel, Maldonado-Textle, Hortensia, Torres-Lubián, José Román, St Thomas, Claude, Díaz de León, Ramón, Olivares-Romero, José Luis, Valencia, Luis, and Enríquez-Medrano, Francisco Javier

Subjects

METHACRYLATES, POLYMERIZATION, BLOCK copolymers, MOLECULAR weights

Abstract

Herein, we report a novel type of symmetrical trithiocarbonate chain transfer agent (CTA) based diphenylmethyl as R groups. The utilization of this CTA in the Reversible Addition-Fragmentation chain Transfer (RAFT) process reveals an efficient control in the polymerization of methacrylic monomers and the preparation of block copolymers. The latter are obtained by the (co)polymerization of styrene or butyl acrylate using a functionalized macro-CTA polymethyl methacrylate (PMMA) previously synthesized. Data show low molecular weight dispersity values (Đ < 1.5) particularly in the polymerization of methacrylic monomers. Considering a typical RAFT mechanism, the leaving groups (R) from the fragmentation of CTA should be able to re-initiate the polymerization (formation of growth chains) allowing an efficient control of the process. Nevertheless, in the case of the polymerization of MMA in the presence of this symmetrical CTA, the polymerization process displays an atypical behavior that requires high [initiator]/[CTA] molar ratios for accessing predictable molecular weights without affecting the Đ. Some evidence suggests that this does not completely behave as a common RAFT agent as it is not completely consumed during the polymerization reaction, and it needs atypical high molar ratios [initiator]/[CTA] to be closer to the predicted molecular weight without affecting the Đ. This work demonstrates that MMA and other methacrylic monomers can be polymerized in a controlled way, and with "living" characteristics, using certain symmetrical trithiocarbonates. [ABSTRACT FROM AUTHOR]

Published

2021

4. Ethylene Polymerization via Zirconocene Catalysts and Organoboron Activators: An Experimental and Kinetic Modeling Study.

Author

Valencia, Luis, Enríquez-Medrano, Francisco, López-González, Ricardo, Quiñonez-Ángulo, Priscila, Saldívar-Guerra, Enrique, Díaz-Elizondo, José, Zapata-González, Iván, and Díaz de León, Ramón

Subjects

ETHYLENE, POLYMERIZATION, VAPOR-liquid equilibrium, ORGANOBORON compounds, METALLOCENE catalysts, MOLECULAR weights, TOLUENE

Abstract

Forty years after the discovery of metallocene catalysts, there are still several aspects that remain unresolved, especially when the "conventional" alkylaluminum activators are not used. Herein, we systematically investigated the synthesis of polyethylene (PE) via three different zirconocene catalysts, with different alkyl substituents, activated via different organoboron compounds. The polymerization behavior, as well as the properties of the materials, were evaluated. The results demonstrate that the highest catalytic activity is shown by bis(cyclopentadienyl)dimethylzirconium activated by trityl tetra(pentafluorophenyl)borate. Additionally, it was found that toluene is the optimum solvent for these systems and at these reaction conditions. Moreover, to validate our experimental results, a comprehensive mathematical model was developed on the basis of thermodynamic and kinetic principles. The concentration of ethylene transferred to the solvent phase (toluene) in a liquid–vapor equilibrium (LVE) system was estimated based on Duhem's theorem. Arrhenius expressions for the kinetic rate constants of a proposed kinetic mechanism were estimated by a kinetic model, in which the rate of polymerization was fitted by a least-square optimization procedure and the molecular weight averages by the method of moments. The simulations of the coordination polymerization suggest the presence of two types of active sites, principally at low temperatures, and the reactivation of the deactivated sites via a boron-based activator. However, the effect of the temperature on the reactivation step was not clear; a deeper understanding via designed experiments is required. [ABSTRACT FROM AUTHOR]

Published

2021