SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2802381264> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W2802381264 endingPage "1130" @default.
W2802381264 startingPage "1117" @default.
W2802381264 abstract "In this Account, we briefly discuss the recently discovered and rapidly developing superbase-promoted self-organization reactions of several equivalents of acetylenes and ketones to afford complex compounds that represent promising synthetic building blocks common in natural products. Notably, acetylenes play a special role in these reactions because of their dual (acting as an electrophile and a nucleophile) and flexible reactivity. These unique properties of acetylenes are elegantly expressed in superbasic media, where acetylenes are more deprotonated and their electrophilicity increases as a result of complexation with alkali metal cations, with simultaneous enhancement of the nucleophilic reactants due to desolvation. Under these conditions, acetylenes behave as a driving and organizing force toward other reactants. Various combinations of nucleophilic addition to the triple bond and acetylene deprotonation in the presence of other reactants with dual reactivity (e.g., ketones) enables the self-organization of complex molecular architectures that are inaccessible by conventional reactions. Herein we analyze recent achievements in this area concerning the reactions of acetylenes with ketones in superbasic KOH/DMSO-type systems that selectively afford synthetically and pharmaceutically valuable carbo- and heterocycles. Most of the reactions are triggered by the nucleophilic addition of deprotonated ketones (enolate anions) to acetylenes (superbase-catalyzed C-vinylation of ketones with acetylenes, which was recently introduced by our group into a toolkit of organic chemistry). The β,γ-ethylenic ketones thus formed can then take part in cascade processes with ketones and acetylenes to afford either carbocycles (e.g., hexahydroazulenones, acyl terphenyls, functionalized and cyclopentenols) or heterocycles (e.g., furans, benzoxepines, dioxabicyclo[3.2.1]octanes, and dioxadispiro[5.1.5.2]pentadecanes), depending on the structure of the reactants and the reaction conditions. Most of these compounds are selectively built from several equivalents of ketones and acetylenes in different combinations, and despite the presence of two or more asymmetric carbons in the products, they are generated as single diastereomers. When other nucleophiles (hydroxylamine, hydrazines, guanidine, and oximes) and ketones are involved in these self-organization processes, the intermediate β,γ-ethylenic ketones allow the formation of diverse heterocyclic systems (pyrroles, isoxazolines, pyrazolines, aminopyrimidines, and azabicyclo[3.1.0]hexanes). The discovered unique chemical transformations do not require transition metal catalysts and proceed under mild and operationally simple conditions. Most of these syntheses involve cascade addition reactions and therefore represent pot-, atom-, step-, and energy-saving processes that meet the requirements of green chemistry. The significance of the approach discussed herein is that it represents a viable alternative to existing classic and modern transition-metal-based catalytic syntheses of some fundamental carbo- and heterocycles. This is demonstrated by its employment of readily available, inexpensive starting materials like acetylenes and ketones and simple, widely accessible superbasic systems such as KOH/DMSO, which serves as a highly active universal catalyst and auxiliary. As shown in this Account, as this approach has developed, the number of preparatively attractive methods for the synthesis of diverse and potentially useful compounds has rapidly ballooned. The impressive experimental results presented in this Account will hopefully draw the attention of large circles of organic chemists involved in the design of rational and ecologically sound synthetic procedures and thus increase the application of these techniques in medicinal chemistry and materials science." @default.
W2802381264 created "2018-05-17" @default.
W2802381264 creator A5033401885 @default.
W2802381264 creator A5052545953 @default.
W2802381264 date "2018-04-18" @default.
W2802381264 modified "2023-10-06" @default.
W2802381264 title "Acetylenes in the Superbase-Promoted Assembly of Carbocycles and Heterocycles" @default.
W2802381264 cites W1489810714 @default.
W2802381264 cites W1608439933 @default.
W2802381264 cites W1970009364 @default.
W2802381264 cites W1975069607 @default.
W2802381264 cites W1975275935 @default.
W2802381264 cites W1986058489 @default.
W2802381264 cites W2003286828 @default.
W2802381264 cites W2003960637 @default.
W2802381264 cites W2005563750 @default.
W2802381264 cites W2018593663 @default.
W2802381264 cites W2019748248 @default.
W2802381264 cites W2020601882 @default.
W2802381264 cites W2022636000 @default.
W2802381264 cites W2024147337 @default.
W2802381264 cites W2035575062 @default.
W2802381264 cites W2052453310 @default.
W2802381264 cites W2056382400 @default.
W2802381264 cites W2059763440 @default.
W2802381264 cites W2063347211 @default.
W2802381264 cites W2072145796 @default.
W2802381264 cites W2073248268 @default.
W2802381264 cites W2075060200 @default.
W2802381264 cites W2081249128 @default.
W2802381264 cites W2088611290 @default.
W2802381264 cites W2088873578 @default.
W2802381264 cites W2088920423 @default.
W2802381264 cites W2091735845 @default.
W2802381264 cites W2106312715 @default.
W2802381264 cites W2116112259 @default.
W2802381264 cites W2117050748 @default.
W2802381264 cites W2118595837 @default.
W2802381264 cites W2122268439 @default.
W2802381264 cites W2128503893 @default.
W2802381264 cites W2142343609 @default.
W2802381264 cites W2154587590 @default.
W2802381264 cites W2158516593 @default.
W2802381264 cites W2230901097 @default.
W2802381264 cites W2240013789 @default.
W2802381264 cites W2298454037 @default.
W2802381264 cites W2302154534 @default.
W2802381264 cites W2320715866 @default.
W2802381264 cites W2321738057 @default.
W2802381264 cites W2328428024 @default.
W2802381264 cites W2341233980 @default.
W2802381264 cites W2342811784 @default.
W2802381264 cites W2346497432 @default.
W2802381264 cites W2413973776 @default.
W2802381264 cites W2526682733 @default.
W2802381264 cites W2551968526 @default.
W2802381264 cites W2558169657 @default.
W2802381264 cites W2560552704 @default.
W2802381264 cites W2580108449 @default.
W2802381264 cites W2605166807 @default.
W2802381264 cites W2620731805 @default.
W2802381264 cites W2767151718 @default.
W2802381264 cites W2949350254 @default.
W2802381264 cites W2949782095 @default.
W2802381264 cites W2949886708 @default.
W2802381264 cites W2950318049 @default.
W2802381264 cites W2950408062 @default.
W2802381264 cites W2950444921 @default.
W2802381264 cites W2950741211 @default.
W2802381264 cites W2951127066 @default.
W2802381264 cites W2952417360 @default.
W2802381264 cites W2952614803 @default.
W2802381264 cites W2953048249 @default.
W2802381264 cites W2953229548 @default.
W2802381264 cites W4255243926 @default.
W2802381264 cites W2137644645 @default.
W2802381264 doi "https://doi.org/10.1021/acs.accounts.7b00618" @default.
W2802381264 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29668261" @default.
W2802381264 hasPublicationYear "2018" @default.
W2802381264 type Work @default.
W2802381264 sameAs 2802381264 @default.
W2802381264 citedByCount "66" @default.
W2802381264 countsByYear W28023812642018 @default.
W2802381264 countsByYear W28023812642019 @default.
W2802381264 countsByYear W28023812642020 @default.
W2802381264 countsByYear W28023812642021 @default.
W2802381264 countsByYear W28023812642022 @default.
W2802381264 countsByYear W28023812642023 @default.
W2802381264 crossrefType "journal-article" @default.
W2802381264 hasAuthorship W2802381264A5033401885 @default.
W2802381264 hasAuthorship W2802381264A5052545953 @default.
W2802381264 hasConcept C118629725 @default.
W2802381264 hasConcept C142724271 @default.
W2802381264 hasConcept C145148216 @default.
W2802381264 hasConcept C161790260 @default.
W2802381264 hasConcept C178790620 @default.
W2802381264 hasConcept C178907741 @default.
W2802381264 hasConcept C185592680 @default.