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Scalable Frontal Oligomerization: Insights from Advanced Mass Analysis

Benjamin A. Suslick, Diego Alzate, Jeffrey S. Moore

2022Macromolecules20 citationsDOIOpen Access PDF

Abstract

Linear oligomers of dicyclopentadiene (DCPD) are reactive precursors for thermoplastic and thermoset materials. Unlike the foul-smelling parent monomer, oligomers composed of DCPD are odorless. With appropriate modification of the end-group or backbone chemistry, telechelic DCPD oligomers have potential utility as cross-linkers and as macromonomer precursors for block and graft copolymers. Most existing methods to produce oligo-DCPD, however, require solvent, are relatively slow, and necessitate air-free techniques. Here we show that frontal ring-opening metathesis oligomerization (FROMO) of neat DCPD and other norbornene derivatives rapidly generates hundreds of grams of material in minutes with catalyst loadings of 0.5 mM. This energy-efficient catalytic process utilizes the heat generated by the reaction to self-propagate oligomerization throughout the liquid monomer. FROMO employs a terminal olefin (e.g., styrene) in which a cross-metathesis reaction (i.e., chain transfer) competes with ring-opening metathesis (i.e., propagation). Kendrick mass analysis enables rapid identification and assignment of all the chain-end types present and quantifies the degree of branching resulting from the infrequent cyclopentene ring-opening reaction. This analytical technique also detects oligomer species derived from trace impurities in the monomer or chain-transfer agent that are otherwise difficult to observe with other characterization methods. The obtained oligomers possess well-defined chain-ends and molecular weight distributions.

Topics & Concepts

CyclopenteneMonomerOligomerDicyclopentadieneChemistryPolymer chemistryNorborneneMacromonomerCopolymerBranching (polymer chemistry)Chain transferMetathesisPolymerizationCatalysisOrganic chemistryPolymerRadical polymerizationSynthetic Organic Chemistry MethodsChemical Synthesis and AnalysisFuel Cells and Related Materials