DFT Study of Lewis Base Interactions with the MgCl₂ Surface in the Ziegler−Natta Catalytic System: Expanding the Role of the Donors

Abstract: We present a computational study, using density functional theory, of the role of internal and external donors in supported heterogeneous Ziegler-Natta polymerization catalyst systems. The focus of the investigation is the ability of the donors to stabilize the MgCl 2 support through the zip mode of coordination. Phthalates and alkoxy benzoates have been considered as representative internal and external donors, respectively. Models for the R (ccp) and the (hcp) phases of the (110) MgCl 2 lateral cut have been… Show more

“…From the relative barriers, we could conclude that the ZN catalyzed propylene insertion in the absence of the electron donors is regioselective in preference of the primary (1,2) insertion and nonstereoselective (no preference for one of the two enantiofaces). These theoretical results are in agreement with other theoretical results [18,26,55,56]. Additionally, it was notable that TS structures of all types of insertion exhibit a strong a-agostic interaction which is obvious from the elongated C a -H a bond distance (1.14 Å) as compared with the normal CeH bond distance (1.10 Å).…”

“…4. The presence of the malonate donor in the chelate mode favors the primary (1,2)-si insertion similarly to cases for the zip [26] and the bridge [18] coordination modes. Thus, coadsorption of the di-n-butyl 2-cyclopentyl malonate converts the aspecific (nonstereoselective) Ti mononuclear species into isospecific (stereoselective) one by sterically controlling the orientation of the growing chain at the transition state.…”

“…Assuming that atoms on the surface present a structure close to that in the bulk of the crystal, the MgeCl distances and all the CleMgeCl angles were set to X-ray values of 2.49 Å and 90 , respectively [45]. In addition, the a-MgCl 2 (110) surface has been selected for the studies, with the distance of 5.9 Å between the layers as suggested by Vanka and co-worker [26]. Many theoretical studies have reported that the interaction of TiCl 4 with the MgCl 2 (110) face is strong [46,47] while that with MgCl 2 (100) and (104) faces are weak [20,48].…”

“…Most of the works have been focused on ethylbenzoates [10,16,23e25], phthalates [26], succinates [18], alkoxysilanes [19,27], and 1,3-diethers [28e30]. Malonate compounds as internal electron donor have been reported to be very potent electron donors which show good activity and high isotacticity [31,32].…”

Roles of malonate donor on activity and stereoselectivity of Ziegler–Natta catalyzed propylene polymerization

“…From the relative barriers, we could conclude that the ZN catalyzed propylene insertion in the absence of the electron donors is regioselective in preference of the primary (1,2) insertion and nonstereoselective (no preference for one of the two enantiofaces). These theoretical results are in agreement with other theoretical results [18,26,55,56]. Additionally, it was notable that TS structures of all types of insertion exhibit a strong a-agostic interaction which is obvious from the elongated C a -H a bond distance (1.14 Å) as compared with the normal CeH bond distance (1.10 Å).…”

“…4. The presence of the malonate donor in the chelate mode favors the primary (1,2)-si insertion similarly to cases for the zip [26] and the bridge [18] coordination modes. Thus, coadsorption of the di-n-butyl 2-cyclopentyl malonate converts the aspecific (nonstereoselective) Ti mononuclear species into isospecific (stereoselective) one by sterically controlling the orientation of the growing chain at the transition state.…”

“…Assuming that atoms on the surface present a structure close to that in the bulk of the crystal, the MgeCl distances and all the CleMgeCl angles were set to X-ray values of 2.49 Å and 90 , respectively [45]. In addition, the a-MgCl 2 (110) surface has been selected for the studies, with the distance of 5.9 Å between the layers as suggested by Vanka and co-worker [26]. Many theoretical studies have reported that the interaction of TiCl 4 with the MgCl 2 (110) face is strong [46,47] while that with MgCl 2 (100) and (104) faces are weak [20,48].…”

“…Most of the works have been focused on ethylbenzoates [10,16,23e25], phthalates [26], succinates [18], alkoxysilanes [19,27], and 1,3-diethers [28e30]. Malonate compounds as internal electron donor have been reported to be very potent electron donors which show good activity and high isotacticity [31,32].…”

Roles of malonate donor on activity and stereoselectivity of Ziegler–Natta catalyzed propylene polymerization

“…For this purpose, several experimental [29][30][31][32][33][34][35] and computational 13,15,[36][37][38][39][40][41][42][43][44][45][46] studies were performed. Many features of the catalyst, as the structure of the precatalyst, the activation process, the oxidation state(s) of the active titanium species during the polymerization process were investigated; notwithstanding, there are still several open questions.…”

Structural Characterization of the EtOH–TiCl₄–MgCl₂ Ziegler–Natta Precatalyst

The effect of the mixed external donors on the sequence length distribution of polypropylene