Toward More Sustainable Elastomers: Stereoselective Copolymerization of Linear Terpenes with Butadiene

Toward More Sustainable Elastomers: Stereoselective Copolymerization of Linear Terpenes with Butadiene

The copolymerization of renewable monomers such as ocimene (O), myrcene (M), and farnesene (F) with butadiene (B), promoted by dichloro­{1,4-dithiabutanediyl-2,2′-bis­[4,6-bis­(2-phenyl-2-propyl)­phenoxy]}­titanium (1) activated by modified methylalumoxane (m-MAO) under mild reaction conditions, was...

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Published in:Macromolecules Vol. 53; no. 5; pp. 1665 - 1673
Main Authors: Lamparelli, David Hermann, Paradiso, Veronica, Monica, Francesco Della, Proto, Antonio, Guerra, Silvia, Giannini, Luca, Capacchione, Carmine
Format: Journal Article
Language:English
Published: American Chemical Society 10-03-2020
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Abstract The copolymerization of renewable monomers such as ocimene (O), myrcene (M), and farnesene (F) with butadiene (B), promoted by dichloro­{1,4-dithiabutanediyl-2,2′-bis­[4,6-bis­(2-phenyl-2-propyl)­phenoxy]}­titanium (1) activated by modified methylalumoxane (m-MAO) under mild reaction conditions, was investigated. Copolymers in a wide range of compositions were obtained through a judicious control of the alimentation feed (up to 85% of terpene incorporated in the case of poly­(ocimene–butadiene) (POB)). Analysis of POB, poly­(myrcene–butadiene) (PMB), and poly­(farnesene–butadiene) (PFB) microstructures revealed the good stereoselectivity of 1, both in the butadiene (up to 95%) and in the terpene (up to 92%, 71%, and 86% for O, M, and F, respectively) insertion. For all these new materials, a complete 13C NMR assignment was performed, revealing a multiblock structure. A sample of POB was also evaluated as a component in a model tread compound leading to improved mechanical properties with respect to the corresponding plain butadiene rubbers.
AbstractList The copolymerization of renewable monomers such as ocimene (O), myrcene (M), and farnesene (F) with butadiene (B), promoted by dichloro­{1,4-dithiabutanediyl-2,2′-bis­[4,6-bis­(2-phenyl-2-propyl)­phenoxy]}­titanium (1) activated by modified methylalumoxane (m-MAO) under mild reaction conditions, was investigated. Copolymers in a wide range of compositions were obtained through a judicious control of the alimentation feed (up to 85% of terpene incorporated in the case of poly­(ocimene–butadiene) (POB)). Analysis of POB, poly­(myrcene–butadiene) (PMB), and poly­(farnesene–butadiene) (PFB) microstructures revealed the good stereoselectivity of 1, both in the butadiene (up to 95%) and in the terpene (up to 92%, 71%, and 86% for O, M, and F, respectively) insertion. For all these new materials, a complete 13C NMR assignment was performed, revealing a multiblock structure. A sample of POB was also evaluated as a component in a model tread compound leading to improved mechanical properties with respect to the corresponding plain butadiene rubbers.
Author Proto, Antonio
Giannini, Luca
Monica, Francesco Della
Paradiso, Veronica
Guerra, Silvia
Lamparelli, David Hermann
Capacchione, Carmine
AuthorAffiliation Dipartimento di Chimica e Biologia “Adolfo Zambelli
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  givenname: Veronica
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  givenname: Francesco Della
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  surname: Monica
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  organization: Dipartimento di Chimica e Biologia “Adolfo Zambelli″
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  surname: Capacchione
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  email: ccapacchione@unisa.it
  organization: Dipartimento di Chimica e Biologia “Adolfo Zambelli″
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Snippet The copolymerization of renewable monomers such as ocimene (O), myrcene (M), and farnesene (F) with butadiene (B), promoted by...
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Title Toward More Sustainable Elastomers: Stereoselective Copolymerization of Linear Terpenes with Butadiene
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