2020
DOI: 10.1002/slct.202001407
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Is It Possible to Achieve Organic Superbases beyond the Basicity Limit Using Tetrahedrane Scaffolds?

Abstract: Substituted tetrahedranes offer exceptional carbon bases with the gas-phase proton affinities (PAs) up to 356 kcal mol À 1 , due to the strain-induced ring opening upon protonation. Additional tetrahedrane moieties exert a dramatic basicity amplification to PAs reaching 600 kcal mol À 1 , being the strongest organic superbases reported, clearly surpassing the proposed limit of achievable basicities (Angew. Chem. Int. Ed. 2015, 54, 9262). However, because protonation/deprotonation of these compounds is not reve… Show more

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Cited by 10 publications
(5 citation statements)
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“…Finally, if protonation is allowed to be irreversible, a metastable structure that literally explodes upon protonation could destroy all of the limits. That might be a large net of tetrahedrane cells, 100 which irreversibly breaks down to a net of cyclobutadiene rings right after protonation.…”
Section: 59mentioning
confidence: 99%
“…Finally, if protonation is allowed to be irreversible, a metastable structure that literally explodes upon protonation could destroy all of the limits. That might be a large net of tetrahedrane cells, 100 which irreversibly breaks down to a net of cyclobutadiene rings right after protonation.…”
Section: 59mentioning
confidence: 99%
“…[ 2–5 ] The other organosuperbases that are not naphthalene based were also examined experimentally and computationally. [ 6–17 ] Some of the introduced superbases meet much higher basicity than DMAN, which is mainly due to the unique stability of their conjugate acids. In general, stability and positive charge delocalization in the conjugate acid of the base are provided by the solvation, resonance, IHBs, and use of electron‐donating groups.…”
Section: Introductionmentioning
confidence: 99%
“…Organic tetrahedranes have long captivated the chemistry community because of their unusual bonding properties and reactivity, as well as their potential applications as organic superbases , and components in high-energy-density materials. , While tetrahedrane is considered the most strained saturated hydrocarbons in terms of Baeyer’s strain theory that was first postulated in 1885, it was not until 1978 that the first tetrahedrane derivative, tetra- tert -butyltetrahedrane, was successfully isolated . In this seminal study, Maier and co-workers also unveiled the close relationship between tetra- tert -butyltetrahedrane and isomeric tetra- tert -butylcyclobutadiene, by showing their interconversion through thermolysis and photolysis experiments …”
mentioning
confidence: 99%
“…O rganic tetrahedranes have long captivated the chemistry community because of their unusual bonding properties and reactivity, 1 as well as their potential applications as organic superbases 2,3 and components in high-energy-density materials. 4,5 While tetrahedrane is considered the most strained saturated hydrocarbons in terms of Baeyer's strain theory that was first postulated in 1885, 6−8 it was not until 1978 that the first tetrahedrane derivative, tetra-tert-butyltetrahedrane, was successfully isolated.…”
mentioning
confidence: 99%
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