Catalytic enantioselective syn hydration of enones in water using a DNA-based catalyst

Boersma, Arnold J.; Coquière, David; Geerdink, Danny; Rosati, Fiora; Feringa, Ben L.; Roelfes, Gérard

doi:10.1038/nchem.819

Cited by 210 publications

(149 citation statements)

References 28 publications

Supporting

Mentioning

137

Contrasting

Unclassified

Order By: Relevance

“…It has been shown previously (Langhoff 1996;Bauschlicher & Langhoff 1997;Boersma et al 2010a) that this combination of a functional basis set and a single-scale factor of 0.958 leads to harmonic frequencies that agree excellently well with experiments. IR spectra, calculated using this level of theory, of molecules for which no experimental data exists are at least consistent with the data of other PAH molecules of the same size and charge (Ricca et al 2011).…”

Section: Models and Computational Methodssupporting

confidence: 60%

Coronene and pyrene (5, 7)-member ring defects

Oettl

Huber

Kimeswenger

et al. 2014

A&A

View full text Add to dashboard Cite

Context. Polycyclic aromatic hydrocarbons (PAHs) are known today to be one of the carriers of the ubiquitous aromatic infrared (IR) bands. The IR spectra of many astrophysical objects show IR emission features derived from PAH molecules of different size. Space-based observations have shown that these IR emission features are omnipresent and can be found in most objects. However, some of the characteristics of the emitting population remain unclear. The emission bands show details that cannot be explained so far. These unidentified IR features require more laboratory and observational investigations. Aims. We present a theoretical study of the IR spectra of PAHs containing (5, 7)-member ring defects, focusing on pyrene (C 16 H 10 ) and coronene (C 24 H 12 ). Methods. Using density functional theory, we investigated the effects of these defects on the IR spectra of pyrene and coronene and their cations and anions. In addition, we explored parts of the potential energy surface of the neutral species and discuss alternative formation pathways.Results. The addition of (5, 7)-membered ring defects in pyrene and coronene results in a change of the IR spectra: both molecules lose their typical spectroscopic signature. We find shifts in the positions of the band as well as different intensities and an increase in the number of features. The boundaries in terms of the size of the PAHs exhibiting a (5, 7)-membered ring defect are studied and shown. Investigating the minimum energy pathway leads to a result of 8.21 eV for pyrene and 8.41 eV for coronene as the minimum activation barriers for the transformation from ground to defected state. Whereas pyrene retains some of its symmetry because of the symmetry exhibited by the Stone-Wales defect itself, coronene loses much more of its symmetry. The formation of these (5, 7)-ring defects in PAHs may be well supported in asymptotic giant branch stars or planetary nebulae. These environments strongly enable the transition from the ground to the defected state. Therefore the knowledge of the IR spectra of these molecules will support future investigations aiming for a thorough understanding of the unidentified IR emission bands.

show abstract

Section: Models and Computational Methodssupporting

confidence: 60%

Coronene and pyrene (5, 7)-member ring defects

Oettl

Huber

Kimeswenger

et al. 2014

A&A

View full text Add to dashboard Cite

show abstract

“…A selection of DNA-binding ligands used by the group of Roelfes with DNA in copper-catalysed asymmetric reactions. [42][43][44][45][46]49] copper complexes and commercially available salmon testes and calf thymus DNA served as catalysts for asymmetric Diels-Alder, [42] Michael addition, [43] and Friedel-Crafts alkylation [44] reactions. By using azachalcone or a,b-unsaturated 2-acyl imidazoles as substrate, high ee values (> 80 %) were reported for these reactions.…”

Section: Supramolecular Assemblymentioning

confidence: 99%

Bioinspired Catalyst Design and Artificial Metalloenzymes

Deuss

Heeten

Laan

et al. 2011

Chemistry A European J

180

124

View full text Add to dashboard Cite

Many bioinspired transition-metal catalysts have been developed over the recent years. In this review the progress in the design and application of ligand systems based on peptides and DNA and the development of artificial metalloenzymes are reviewed with a particular emphasis on the combination of phosphane ligands with powerful molecular recognition and shape selectivity of biomolecules. The various approaches for the assembly of these catalytic systems will be highlighted, and the possibilities that the use of the building blocks of Nature provide for catalyst optimisation strategies are discussed.

show abstract

“…[51] In contrast to the other examples of DNA-based catalysis, the first generation ligands, that is, those based on a 9-aminoacridine intercalating moiety, proved to be the most effective ligands for this reaction, giving up to 79 % ee, which could be further improved to 82 % ee by performing the reaction in D 2 O.…”

Section: Helical Polymers That Do Not Contain Chiral Side Chainsmentioning

confidence: 99%