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Electrostatic Activation of Tetrazoles

dc.contributor.authorDoan, Vincent
dc.contributor.authorNoble, Benjamin
dc.contributor.authorCoote, Michelle
dc.date.accessioned2020-08-27T01:57:44Z
dc.date.issued2020-08-07
dc.description.abstractPhotoactivation of tetrazoles to form nitrile imines primed for 1,3-dipolar cycloaddition reactions is of widespread utility in chemistry. In contrast, the corresponding thermal reactions usually possess prohibitively high barriers and have garnered significantly less attention. Here, computational chemistry at the M06-2X/6-31+G(d,p) level of theory with SMD solvent corrections is used to show that these thermal activation barriers can be significantly reduced through the use of nonconjugated charged functional groups (CFGs). For 2,5-dimethyl-tetrazole, a positive CFG on the N-methyl (2-position) lowers the fragmentation barrier by around 80 kJ mol-1 in the gas phase, while a negative charge has a smaller opposite effect. These CFG effects remain significant even in polar solvents, with barrier lowering on the order of 30 kJ mol-1 in dimethyl sulfoxide and acetonitrile. In practical terms, the positive CFG decreases the fragmentation half-life of 2,5-dimethyl-tetrazole in refluxing o-xylene from 300,000 years to 1 week. While the resulting nitrile imine is stabilized, its subsequent 1,3-cycloaddition with N-methylmaleimide remains highly facile. Electrostatic effects on a range of 2-phenyl-5-methyltetrazoles, 2-methyl-5-phenyl-tetrazoles, and 2,5-diphenyl-tetrazoles follow similar trends and are explicable largely in terms of the stabilization of the developing dipole in the transition state.en_AU
dc.description.sponsorshipThe authors acknowledge financial support from the Australian Research Council (ARC) Centre of Excellence for Electromaterials Science (CE140100012), an ARC Laureate Fellowship (to M.L.C.; FL170100041), and generous supercomputing time from the National Computational Infrastructure.en_AU
dc.format.mimetypeapplication/pdfen_AU
dc.identifier.issn0022-3263en_AU
dc.identifier.urihttp://hdl.handle.net/1885/209094
dc.language.isoen_AUen_AU
dc.provenancehttps://v2.sherpa.ac.uk/id/publication/7797..."The Accepted Version can be archived in a non-commercial institutional repository if required by funder. 12 months embargo." from SHERPA/RoMEO site (as at 27/08/2020)." This document is the Accepted Manuscript version of a Published Work that appeared in final form in The Journal of organic chemistry, copyright © American Chemical Society after peer review and technical editing by the publisher. To access the final edited and published work see https://dx.doi.org/10.1021/acs.joc.0c01354en_AU
dc.publisherAmerican Chemical Societyen_AU
dc.relationhttp://purl.org/au-research/grants/arc/CE140100012en_AU
dc.relationhttp://purl.org/au-research/grants/arc/FL170100041en_AU
dc.rights© 2020 American Chemical Societyen_AU
dc.sourceThe Journal of organic chemistryen_AU
dc.titleElectrostatic Activation of Tetrazolesen_AU
dc.typeJournal articleen_AU
dcterms.accessRightsOpen Accessen_AU
local.bibliographicCitation.issue15en_AU
local.bibliographicCitation.lastpage10097en_AU
local.bibliographicCitation.startpage10091en_AU
local.contributor.affiliationDoan, V., Research School of Chemistry, The Australian National Universityen_AU
local.contributor.affiliationNoble, B., Research School of Chemistry, The Australian National Universityen_AU
local.contributor.affiliationCoote, Michelle, Research School of Chemistry, The Australian National Universityen_AU
local.contributor.authoruidu6057677en_AU
local.identifier.citationvolume85en_AU
local.identifier.doi10.1021/acs.joc.0c01354en_AU
local.identifier.essn1520-6904en_AU
local.publisher.urlhttp://pubs.acs.org/journal/joceah/about.htmlen_AU
local.type.statusAccepted Versionen_AU

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