Litcius/Paper detail

Singlet-to-Triplet Spin Transitions Facilitate Selective 1-Butene Formation during Ethylene Dimerization in Ni(II)-MFU-4<i>l</i>

Jenna L. Mancuso, Carlo Alberto Gaggioli, Laura Gagliardi, Christopher H. Hendon

2021The Journal of Physical Chemistry C18 citationsDOIOpen Access PDF

Abstract

Catalytic ethylene dimerization is an important chemical reaction that suffers from a lack of selectivity for the desired product, 1-butene. Metal–organic frameworks (MOFs) bearing Ni-based catalytic sites have been shown to yield record selectivity for 1-butene. Early efforts to understand this selectivity revealed that chain propagation and 2-butene formation are competitive with 1-butene, seemingly at odds with experimental evidence that these products are disfavored. Here, we present an alternative mechanism for selective 1-butene formation in the highest performing MOF, Ni(II)-MFU-4l. Our study reveals competing electronic spin configuration pathways that intersect along the reaction coordinate. Intersystem crossing provides an explanation for the selective formation of 1-butene in the MOF. Furthermore, we explore intersystem crossing as a unique design principle for MOF catalyst design and highlight a departure from conventional molecular catalyst design paradigms.

Topics & Concepts

Intersystem crossingSelectivityButeneCatalysisPhotochemistrySinglet stateEthyleneChemistryChemical physicsMaterials scienceOrganic chemistryPhysicsExcited stateAtomic physicsMetal-Organic Frameworks: Synthesis and ApplicationsMagnetism in coordination complexesMachine Learning in Materials Science