<i>Planar-to-Planar</i> Chirality Transfer in the Excited State. Enantiodifferentiating Photoisomerization of Cyclooctenes Sensitized by Planar-Chiral Paracyclophane

Maeda, Ryo; Wada, Takehiko; Mori, Tadashi; Kono, Shigeyuki; Kanomata, Nobuhiro; Inoue, Yoshihisa

doi:10.1021/ja203781f

Cited by 48 publications

(37 citation statements)

References 29 publications

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“…[12] Benzoates of chiral alcohols, such as pyromellitate derivatives 2 a [13] and 2 b, [14] binaphthalene and bisanthracene derivatives with axial chirality, such as 1,1'-bis(2,10-dicyanoanthracene) (3), [15] and cyclodextrin derivatives of benzoic acid esters, such as b-cyclodextrin 4, [16] represent further typical arene photocatalysts. In addition, benzoate 5 [17] exhibiting planar chirality and naphthalene dicarboxylates such as 6 [14] play an important role ( Figure 3).…”

Section: Arenesmentioning

confidence: 99%

Enantioselective Catalysis of Photochemical Reactions

et al. 2015

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The nature of the excited state renders the development of chiral catalysts for enantioselective photochemical reactions a considerable challenge. The absorption of a 400 nm photon corresponds to an energy uptake of approximately 300 kJ mol(-1) . Given the large distance to the ground state, innovative concepts are required to open reaction pathways that selectively lead to a single enantiomer of the desired product. This Review outlines the two major concepts of homogenously catalyzed enantioselective processes. The first part deals with chiral photocatalysts, which intervene in the photochemical key step and induce an asymmetric induction in this step. In the second part, reactions are presented in which the photochemical excitation is mediated by an achiral photocatalyst and the transfer of chirality is ensured by a second chiral catalyst (dual catalysis).

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Section: Arenesmentioning

confidence: 99%

Enantioselective Catalysis of Photochemical Reactions

et al. 2015

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“…Inoue and coworkers have studied the enantiodifferentiating photoisomerization of (Z)-cyclooctene 1Z and (Z,Z)-1,5-cyclooctadiene 3ZZ sensitized by planar-chiral paracyclophanes 55a,b ( Figure 4) [9] to realize the planar-to-planar chirality transfer in the excited state. Differing from the conventional pointchiral sensitizers studied previously, the decamethylene bridge in planar-chiral sensitizer 55 effectively shields one of the enantiotopic faces of the paracyclophane sensitizer to render the excited-state interaction with the more enantiotopic face-selective substrate.…”

Section: Catalytic Supramolecular Photochirogenesis With Miscellaneoumentioning

confidence: 99%

Catalytic Supramolecular Photochirogenesis

Yan¹,

Wu²,

Yang³

et al. 2015

Supramolecular Catalysis

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Supramolecular photochirogenesis is a new strategy for circumventing the inherent difficulties encountered in conventional photochirogenesis, i.e. the interactions associated with geometrically less-defined, short-lived excited states, by confining a prochiral substrate(s) in a chiral supramolecular environment(s) prior to photoexcitation. This rather simple, but very successful, strategy has been applied to a variety of chiral photoreactions. However, a stoichiometric, or even excess amount of supramolecular host is often needed to ensure full complexation of the substrate, and achieve the optimum stereochemical outcome. This apparent drawback has recently been removed by introducing a sensitizing moiety to the supramolecular host, or by bathochromically shifting the absorption band of substrate through Lewis acid, or charge-transfer complexation. Recent progress in catalytic supramolecular photochirogenesis will be reviewed.

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“…[12] Als typische Arene spielen daneben Benzoesäure-ester chiraler Alkohole, wie etwa die Pyromellitsäureester 2 a [13] und 2 b, [14] axial-chirale Binaphthalin-oder Bisanthracenderivate, wie 1,1'-Bis(2,10-dicyanoanthracen) (3), [15] Ester 4 von b-Cyclodextrin, [16] der planar chirale Benzoesäureester 5, [17] sowie Naphthalindicarbonsäureester, wie 6, [14] eine bedeutende Rolle (Abbildung 3). Entscheidend für den Erfolg dieser Katalysatoren ist ihre Eigenschaft, mit dem Substrat einen angeregten Komplex (Exciplex) [18] zu bilden, aus dem heraus die enantioselektive Photoreaktion erfolgt.…”

Section: Areneunclassified

“…[28] In ähnlicher Weise führte die Optimierung der Reaktionsbedingungen für die E/Z-Isomerisierung von (Z,Z)-1,5-Cyclooctadien (14) in Gegenwart des Benzoesäu-reesters 5 zwar zu einem hohen Enantiomerenüberschuss zugunsten des Produkts 15, aber der Umsatz zum Produkt war sehr gering (E/Z = 2:98). [17] Eine enantioselektive Photocycloaddition wurde zum ersten Mal 1990 durch Einsatz von chiralen Binaphthalinen oder Bisanthracenen in einer Triplex-Diels-Alder-Reaktion realisiert. [15] Dabei entstand Produkt 16 oder sein Enantiomer unter Katalyse durch Anthracen 3, wobei der beste Enantiomerenüberschuss 23 % ee betrug und Ausbeuten zwischen 5 und 45 % erzielt wurden (Abbildung 4).…”

Section: Areneunclassified

Enantioselektive Katalyse photochemischer Reaktionen

et al. 2015

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Die Natur des angeregten Zustands macht die Entwicklung chiraler Katalysatoren für enantioselektive photochemische Reaktionen zu einer enormen Herausforderung. Die Absorption eines 400‐nm‐Photons entspricht einer Energieaufnahme von etwa 300 kJ mol−1. Es bedarf innovativer Konzepte, um in einem derart großen Abstand vom Grundzustand Reaktionspfade zu eröffnen, die gezielt zu einem Enantiomer einer chiralen Verbindung führen. Hier werden die beiden wesentlichen Vorgehensweisen für homogen katalysierte, enantioselektive Prozesse diskutiert. Im ersten Teil werden chirale Photokatalysatoren besprochen, die in den photochemischen Schlüsselschritt eingreifen und in diesem Schritt eine asymmetrische Induktion bewirken. Im zweiten Teil werden Reaktionen vorgestellt, in denen die photochemische Anregung durch einen achiralen Katalysator erfolgt und die asymmetrische Induktion durch einen zweiten chiralen Katalysator gewährleistet wird (duale Katalyse).

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Planar-to-Planar Chirality Transfer in the Excited State. Enantiodifferentiating Photoisomerization of Cyclooctenes Sensitized by Planar-Chiral Paracyclophane

Cited by 48 publications

References 29 publications

Enantioselective Catalysis of Photochemical Reactions

Enantioselective Catalysis of Photochemical Reactions

Catalytic Supramolecular Photochirogenesis

Enantioselektive Katalyse photochemischer Reaktionen

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