SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2108564462> ?p ?o ?g. }

Showing items 1 to 100 of ±162 with 100 items per page.

W2108564462 endingPage "10081" @default.
W2108564462 startingPage "10070" @default.
W2108564462 abstract "The displacement of molecular structures from their thermodynamically most stable state by imposition of various types of electronic and conformational constraints generates highly strained entities that tend to release the accumulated strain energy by undergoing either structural changes or chemical reactions. The latter case amounts to strain-induced reactivity (SIR) that may enforce specific chemical transformations. A particular case concerns dynamic covalent chemistry which may present SIR, whereby reversible reactions are activated by coupling to a high-energy state. We herewith describe such a dynamic covalent chemical (DCC) system involving the reversible imine formation reaction. It is based on the formation of strained macrocyclic bis-imine metal complexes in which the macrocyclic ligand is in a high energy form enforced by the coordination of the metal cation. Subsequent demetallation generates a highly strained free macrocycle that releases its accumulated strain energy by hydrolysis and reassembly into a resting state. Specifically, the metal-templated condensation of a dialdehyde with a linear diamine leads to a bis-imine [1+1]-macrocyclic complex in which the macrocyclic ligand is in a coordination-enforced strained conformation. Removal of the metal cation by a competing ligand yields a highly reactive [1+1]-macrocycle, which then undergoes hydrolysis to transient non-cyclic aminoaldehyde species, which then recondense to a strain-free [2+2]-macrocyclic resting state. The process can be monitored by (1) H NMR spectroscopy. Energy differences between different conformational states have been evaluated by Hartree-Fock (HF) computations. One may note that the stabilisation of high-energy molecular forms by metal ion coordination followed by removal of the latter, offers a general procedure for producing out-of-equilibrium molecular states, the fate of which may then be examined, in particular when coupled to dynamic covalent chemical processes." @default.
W2108564462 created "2016-06-24" @default.
W2108564462 creator A5004212202 @default.
W2108564462 creator A5018082448 @default.
W2108564462 creator A5087701202 @default.
W2108564462 date "2015-06-08" @default.
W2108564462 modified "2023-10-16" @default.
W2108564462 title "Strain-Induced Reactivity in the Dynamic Covalent Chemistry of Macrocyclic Imines" @default.
W2108564462 cites W1604742447 @default.
W2108564462 cites W169721680 @default.
W2108564462 cites W1963652932 @default.
W2108564462 cites W1965345461 @default.
W2108564462 cites W1969609407 @default.
W2108564462 cites W1973733815 @default.
W2108564462 cites W1976916476 @default.
W2108564462 cites W1983281271 @default.
W2108564462 cites W1985856047 @default.
W2108564462 cites W1999836377 @default.
W2108564462 cites W2000244482 @default.
W2108564462 cites W2001580550 @default.
W2108564462 cites W2009017967 @default.
W2108564462 cites W2013244464 @default.
W2108564462 cites W2017295056 @default.
W2108564462 cites W2017442048 @default.
W2108564462 cites W2017503103 @default.
W2108564462 cites W2017691963 @default.
W2108564462 cites W2018201044 @default.
W2108564462 cites W2018694034 @default.
W2108564462 cites W2020304407 @default.
W2108564462 cites W2026621900 @default.
W2108564462 cites W2027442848 @default.
W2108564462 cites W2028302945 @default.
W2108564462 cites W2028801273 @default.
W2108564462 cites W2029516793 @default.
W2108564462 cites W2029694226 @default.
W2108564462 cites W2030153354 @default.
W2108564462 cites W2034847724 @default.
W2108564462 cites W2035725159 @default.
W2108564462 cites W2037344841 @default.
W2108564462 cites W2037521703 @default.
W2108564462 cites W2041605955 @default.
W2108564462 cites W2042931146 @default.
W2108564462 cites W2047229096 @default.
W2108564462 cites W2048235399 @default.
W2108564462 cites W2048568564 @default.
W2108564462 cites W2065253200 @default.
W2108564462 cites W2067550505 @default.
W2108564462 cites W2070948990 @default.
W2108564462 cites W2074053115 @default.
W2108564462 cites W2079944699 @default.
W2108564462 cites W2080706904 @default.
W2108564462 cites W2081626220 @default.
W2108564462 cites W2086885680 @default.
W2108564462 cites W2091792452 @default.
W2108564462 cites W2100545671 @default.
W2108564462 cites W2112580284 @default.
W2108564462 cites W2119364052 @default.
W2108564462 cites W2120498040 @default.
W2108564462 cites W2121083268 @default.
W2108564462 cites W2123542901 @default.
W2108564462 cites W2124888828 @default.
W2108564462 cites W2125599832 @default.
W2108564462 cites W2132682133 @default.
W2108564462 cites W2141603171 @default.
W2108564462 cites W2142607208 @default.
W2108564462 cites W2142721038 @default.
W2108564462 cites W2144724321 @default.
W2108564462 cites W2149691591 @default.
W2108564462 cites W2162483151 @default.
W2108564462 cites W2165378894 @default.
W2108564462 cites W2165625352 @default.
W2108564462 cites W2319394001 @default.
W2108564462 cites W2319491895 @default.
W2108564462 cites W2323842433 @default.
W2108564462 cites W2324800041 @default.
W2108564462 cites W2328341611 @default.
W2108564462 cites W2611829321 @default.
W2108564462 cites W2949611276 @default.
W2108564462 cites W2949725023 @default.
W2108564462 cites W3017190668 @default.
W2108564462 cites W4206699765 @default.
W2108564462 cites W4213045240 @default.
W2108564462 cites W4231456652 @default.
W2108564462 cites W4237947711 @default.
W2108564462 cites W4240719652 @default.
W2108564462 cites W4244703061 @default.
W2108564462 cites W4300865779 @default.
W2108564462 cites W4361798650 @default.
W2108564462 doi "https://doi.org/10.1002/chem.201501192" @default.
W2108564462 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26061683" @default.
W2108564462 hasPublicationYear "2015" @default.
W2108564462 type Work @default.
W2108564462 sameAs 2108564462 @default.
W2108564462 citedByCount "20" @default.
W2108564462 countsByYear W21085644622016 @default.
W2108564462 countsByYear W21085644622017 @default.
W2108564462 countsByYear W21085644622018 @default.
W2108564462 countsByYear W21085644622019 @default.