Bio-based aliphatic polyurethanes through ADMET polymerization in bulk and green solvent

Macromolecular Rapid Communications

Volumn 35, Issue 4, 2014, Pages 479-483

  Lebarbé, Thomas ^a,b,c   More, Arvind Sudhakar ^a,b   Sane, Prakash Sudhir ^a,b   Grau, Etienne ^a,b   Alfos, Carine ^d   Cramail, Henri ^a,b  

^a UNIVERSITÉ DE BORDEAUX   (France)

^b CNRS   (France)

^c French Environment and Energy Management Agency   (France)

^d Institut des Corps Gras   (France)

Author keywords

ADMET; Curtius rearrangement; fatty acids; polyurethane; solution

Indexed keywords

ESTERS; FATTY ACIDS; MONOMERS; POLYMERIZATION; POLYURETHANES; SOLUTIONS; SOLVENTS; SYNTHESIS (CHEMICAL);

10-UNDECENOIC ACIDS; ADMET; ALIPHATIC POLYURETHANE; CURTIUS REARRANGEMENT; METATHESIS CATALYSTS; POLYURETHANE SYNTHESIS; SOLUTION CONDITIONS; THERMOMECHANICAL PROPERTIES;

OLEFINS;

10 UNDECENOIC ACID; AZIDE; FATTY ACID; POLYURETHAN; SOLUTION; SOLVENT;

ADMET; ARTICLE; CATALYSIS; CHEMISTRY; CURTIUS REARRANGEMENT; GREEN CHEMISTRY; POLYMERIZATION; SYNTHESIS;

ADMET; CURTIUS REARRANGEMENT; FATTY ACIDS; POLYURETHANE; SOLUTION;

AZIDES; CATALYSIS; GREEN CHEMISTRY TECHNOLOGY; POLYMERIZATION; POLYURETHANES; SOLVENTS; UNDECYLENIC ACIDS;

EID: 84894211310     PISSN: 10221336     EISSN: 15213927     Source Type: Journal    
DOI: 10.1002/marc.201300695     Document Type: Article

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