2015
DOI: 10.1021/acs.iecr.5b01180
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A Perspective on Modeling and Characterization of Transformations in the Blocky Nature of Olefin Block Copolymers

Abstract: Traditional characterization methods are still unable to reveal the block structure of olefin block copolymers (OBCs). Therefore, extending the predictability of our well-developed computer code (Mohammadi et al., Macromolecules, 2014, 47, 4778-4789); the blocky nature of OBCs is modeled and characterized. The expanded model could produce diversity of macromolecules varying the concentration of chain-shuttling agent, catalyst ratio, and monomer composition, as key processing variables. The OBCs were screened a… Show more

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Cited by 22 publications
(41 citation statements)
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“…This is easy to understand, since the CSA also acts as a chain transfer agent, albeit being a reversible one, while increasing the value of k CS only changes how fast the shuttling reaction takes place. Increase in the average number of blocks per chain and decrease in the average length of softand hard-block populations caused by increase in CSA concentration were also reported by Zhang et al and Ahmadi et al [ 13,19 ] Our model, however, provides further detailed description on how CSA concentration affects the properties of each OBC population. Figure 15 b shows how CSA concentration affects PDI.…”
Section: Evolution Of Obc Microstructural Distributionssupporting
confidence: 71%
See 1 more Smart Citation
“…This is easy to understand, since the CSA also acts as a chain transfer agent, albeit being a reversible one, while increasing the value of k CS only changes how fast the shuttling reaction takes place. Increase in the average number of blocks per chain and decrease in the average length of softand hard-block populations caused by increase in CSA concentration were also reported by Zhang et al and Ahmadi et al [ 13,19 ] Our model, however, provides further detailed description on how CSA concentration affects the properties of each OBC population. Figure 15 b shows how CSA concentration affects PDI.…”
Section: Evolution Of Obc Microstructural Distributionssupporting
confidence: 71%
“…Microstructural distributions at the end-of-batch, such as the distribution of number of blocks per chain, block length distribution, chemical composition distribution (CCD), and ethylene sequence length distribution (ESLD), were also simulated. [ 18 ] The effects of processing parameters on the OBC microstructure at the end-of-batch, including chain shuttling agent (CSA) concentration, catalyst composition, and monomer ratio, were also studied by Ahmadi et al [ 19 ] These previous models provide useful guidelines for tailor-making OBCs, especially with respect to hard-and soft-block characteristics. However, detailed microstructures of OBC populations with different number of blocks and blocking structures (Scheme 1 ) and their contributions to the overall microstructural distributions have not yet been revealed in the open literature.…”
Section: Introductionmentioning
confidence: 99%
“…The introduction of long-chain branches in the main backbone using dual catalytic system with one catalyst producing the so-called macromer due to high rate of b-hydride elimination and the other being open to incorporate the bulky macromere in the growing chain belongs to this category as well [8,9]. Also, the recent discovery by Dow chemicals on production of olefinic multi-block copolymers (OBC) using a chain shuttling agent, transferring the growing chain between two catalysts with distinguishable difference in comonomer incorporation ability [10][11][12][13][14][15], can also be accounted. However, many of the dual catalytic systems simply benefit from catalysts that produce chains possessing different microstructures independently.…”
Section: Introductionmentioning
confidence: 99%
“…We previously developed a KMC methodology for simulating copolymerization kinetics and microstructure of the virtually synthesized macromolecules within a relatively large simulation volume . In this work, complex OBCs produced by chain shuttling coordination copolymerization reactions have been selected to demonstrate the capabilities of the enhanced IMC approach.…”
Section: Model Developmentmentioning
confidence: 99%
“…We previously reported on microstructural changes in the semibatch chain shuttling polymerization of ethylene and 1‐octene using KMC simulation . The KMC simulation was able to quantify many signature distributional characteristics of ethylene/1‐octene copolymerization, such as the block composition, referred to as C 8%, the block length represented by the number‐average degree of polymerization DPtrue¯n, the relative proportion of the blocks described via the hard block content (HB%), the number of linking points between blocks (LP), ethylene sequence length (ESL), and also the longest ethylene sequence (LES).…”
Section: Introductionmentioning
confidence: 99%