Doping Polycyclic Aromatics with Boron for Superior Performance in Materials Science and Catalysis

Grotthuss, Esther von; John, Alexandra; Kaese, Thomas; Wagner, Mat­thias

doi:10.1002/ajoc.201700495

Cited by 278 publications

(144 citation statements)

References 146 publications

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“…Despite their great application potential, for example, in organic optoelectronics, chemical sensing, and organocatalysis, systematic investigation of B‐PAHs is hampered by complex synthetic methods, especially for implementation of multiple boron centers into one molecule . Synthesis of B‐PAHs typically relies on transmetallation and/or electrophilic aromatic substitution involving a strong electrophile (BCl 3 , BBr 3 ), also referred to as Friedel–Crafts (FC) borylation . Lewis acids, for example, AlCl 3 , in combination with a bulky amine NR 3 can activate the electrophile by formation of borenium ions [R 3 N‐BX 2 ] + .…”

Section: Methodsmentioning

confidence: 99%

Intramolecular Borylation via Sequential B−Mes Bond Cleavage for the Divergent Synthesis of B,N,B‐Doped Benzo[4]helicenes

et al. 2020

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New symmetric and unsymmetric B,N,B‐doped benzo[4]helicenes 3–6 a/b have been achieved in good yields, using a three‐step process, starting from N(tolyl)3 in a highly divergent manner (7 examples). A borinic acid functionalized 1,4‐B,N‐anthracene 1 was found to display unprecedented reactivity, acting as a convenient and highly effective precursor for selective formation of bromo‐substituted B,N,B‐benzo[4]helicenes 2 a/2 b via intramolecular borylation and sequential B−Mes bond cleavage in the presence of BBr3. Subsequent reaction of 2 a/2 b with Ar‐Li provided a highly effective toolbox for the preparation of symmetrically/unsymmetrically functionalized B,N,B‐helicenes. Their high photoluminescence quantum yields along with the small ΔEST suggest their potential as thermally activated delayed fluorescence (TADF) emitters for organic light‐emitting diodes (OLEDs).

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Section: Methodsmentioning

confidence: 99%

Intramolecular Borylation via Sequential B−Mes Bond Cleavage for the Divergent Synthesis of B,N,B‐Doped Benzo[4]helicenes

et al. 2020

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“…[3] Given that only af ew examples of water-soluble triarylboranes have been reported to date, [4][5][6][7][8][9][10][11][12][13] such borane-based chromophores could be considered to be novel fluorophores for biochemical applications;t hey are already widely used in nonlinearo ptical materials, organic electronics, organic lightemitting diodes or anion sensors. [14][15][16][17][18][19][20][21][22] However,f luorescence of 1 only enabled intracellularl ocalisation of ad ye, but did not allow fort he determination of at argeted biomacromolecule (for example, protein or DNA or RNA). The question arose as to whether it is possible, by detailed analysis of the dye's spectrophotometric response in ac ell, to determine the type of targeted biomacromolecule,w hich would help to determine the bindings ite and suggest furtherd ye applicationsa nd developments.…”

Section: Introductionmentioning

confidence: 99%

A Quadrupolar Bis‐Triarylborane Chromophore as a Fluorimetric and Chirooptic Probe for Simultaneous and Selective Sensing of DNA, RNA and Proteins

Ban

Griesbeck

Tomić

et al. 2020

Chemistry A European J

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A water‐soluble tetracationic quadrupolar bis‐triarylborane chromophore showed strong binding to ds‐DNA, ds‐RNA, ss‐RNA, as well as to the naturally most abundant protein, BSA. The novel dye can distinguish between DNA/RNA and BSA by fluorescence emission separated by Δtrueν˜ =3600 cm−1, allowing for the simultaneous quantification of DNA/RNA and protein (BSA) in a mixture. The applicability of such fluorimetric differentiation in vitro was demonstrated, strongly supporting a protein‐like target as a dominant binding site of 1 in cells. Moreover, our dye also bound strongly to ss‐RNA, with the unusual rod‐like structure of the dye, decorated by four positive charges at its termini and having a hydrophobic core, acting as a spindle for wrapping A, C and U ss‐RNAs, but not poly G, the latter preserving its secondary structure. To the best of our knowledge, such unmatched, multifaceted binding activity of a small molecule toward DNA, RNA, and proteins and the selectivity of its fluorimetric and chirooptic response makes the quadrupolar bis‐triarylborane a novel chromophore/fluorophore moiety for biochemical applications.

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“…The properties of these all-carbon compounds can be further improved by substitutional doping with main-group elements, which has long been known for elements such as nitrogen, phosphorous, or sulfur (Stę pień et al, 2017). However, only a few boron-doped PAHs have been synthesized to date, mainly because of synthetic difficulties (von Grotthuss et al, 2018).…”

Section: Chemical Contextmentioning

confidence: 99%

Polymorphism and pseudosymmetry of 10,10′-oxybis(9-thia-10-hydro-10-boraanthracene)

Radtke¹,

Lerner²,

Bolte³

2019

Acta Cryst E

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We have encountered two polymorphs of the title compound, C24H16B2OS2, both of which display almost the same unit-cell parameters. Compound (I) crystallizes in the non-centrosymmetric space group P21 with four molecules in the asymmetric unit. These molecules are related by pseudosymmetry. As a result, the space group looks like P21/c, but the structure cannot be refined successfully in that space group. Compound (II) on the other hand crystallizes in the centrosymmetric space group P21/c with only two molecules in the asymmetric unit. The crystals studied for (I) and (II) were both non-merohedral twins.

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Doping Polycyclic Aromatics with Boron for Superior Performance in Materials Science and Catalysis

Cited by 278 publications

References 146 publications

Intramolecular Borylation via Sequential B−Mes Bond Cleavage for the Divergent Synthesis of B,N,B‐Doped Benzo[4]helicenes

Intramolecular Borylation via Sequential B−Mes Bond Cleavage for the Divergent Synthesis of B,N,B‐Doped Benzo[4]helicenes

A Quadrupolar Bis‐Triarylborane Chromophore as a Fluorimetric and Chirooptic Probe for Simultaneous and Selective Sensing of DNA, RNA and Proteins

Polymorphism and pseudosymmetry of 10,10′-oxybis(9-thia-10-hydro-10-boraanthracene)

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