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Start Over Author "Zhou Zheng" Journal angewandte chemie international edition
20 results on '"Zhou Zheng"'

2. Back Cover: Site‐Specific Reduction‐Induced Hydrogenation of a Helical Bilayer Nanographene with K and Rb Metals: Electron Multiaddition and Selective Rb + Complexation (Angew. Chem. Int. Ed. 10/2022)

Author

Zhou, Zheng, primary, Fernández‐García, Jesús M., additional, Zhu, Yikun, additional, Evans, Paul J., additional, Rodríguez, Rafael, additional, Crassous, Jeanne, additional, Wei, Zheng, additional, Fernández, Israel, additional, Petrukhina, Marina A., additional, and Martín, Nazario, additional

Published
2022
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3. Taming Chiral Quaternary Stereocenters via Remote H‐Bonding Stereoinduction in Palladium‐Catalyzed (3+2) Cycloadditions.

Author

Xiao, Yu‐Qing, Li, Miao‐Miao, Zhou, Zheng‐Xin, Li, Yu‐Jie, Cao, Meng‐Yue, Liu, Xiao‐Peng, Lu, Hai‐Hua, Rao, Li, Lu, Liang‐Qiu, Beauchemin, André M., and Xiao, Wen‐Jing

Subjects
RING formation (Chemistry), HYDROGEN bonding, STEREOSELECTIVE reactions, LIGANDS (Chemistry), HETEROCYCLIC compounds
Abstract

Ring‐opening transformations of donor‐acceptor (D‐A) cyclopropanes enable the rapid assembly of complex molecules. However, the enantioselective formation of chiral quaternary stereocenters using substrates bearing two different acceptors remains a challenge. Herein, we describe the first palladium‐catalyzed highly diastereo‐ and enantioselective (3+2) cycloaddition of vinyl cyclopropanes bearing two different electron‐withdrawing groups, a subset of D‐A cyclopropanes. The key to the success of this reaction is the remote stereoinduction through hydrogen bond from chiral ligands, which thereby addressed the aforementioned challenge. A variety of chiral five‐membered heterocycles were produced in good yields and with high stereoselectivity (up to 99 % yields, 99 : 1 er and >19 : 1 dr). In‐depth mechanistic investigations, including control experiments and theoretical calculations, revealed the origin of the stereoselectivity and the importance of H‐bonding in stereocontrol. [ABSTRACT FROM AUTHOR]

Published
2023
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4. Site‐Specific Reduction‐Induced Hydrogenation of a Helical Bilayer Nanographene with K and Rb Metals: Electron Multiaddition and Selective Rb+ Complexation

Author

Zhou, Zheng, primary, Fernández‐García, Jesús M., additional, Zhu, Yikun, additional, Evans, Paul J., additional, Rodríguez, Rafael, additional, Crassous, Jeanne, additional, Wei, Zheng, additional, Fernández, Israel, additional, Petrukhina, Marina A., additional, and Martín, Nazario, additional

Published
2021
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5. Stepwise Generation of Mono‐, Di‐, and Triply‐Reduced Warped Nanographenes: Charge‐Dependent Aromaticity, Surface Nonequivalence, Swing Distortion, and Metal Binding Sites

Author

Spisak, Sarah N., primary, Zhou, Zheng, additional, Liu, Shuyang, additional, Xu, Qi, additional, Wei, Zheng, additional, Kato, Kenta, additional, Segawa, Yasutomo, additional, Itami, Kenichiro, additional, Rogachev, Andrey Yu., additional, and Petrukhina, Marina A., additional

Published
2021
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7. Site‐Specific Reduction‐Induced Hydrogenation of a Helical Bilayer Nanographene with K and Rb Metals: Electron Multiaddition and Selective Rb+ Complexation.

Author

Zhou, Zheng, Fernández‐García, Jesús M., Zhu, Yikun, Evans, Paul J., Rodríguez, Rafael, Crassous, Jeanne, Wei, Zheng, Fernández, Israel, Petrukhina, Marina A., and Martín, Nazario

Subjects
*HYDROGENATION, *CHEMICAL reduction, *ELECTRONS, *RUBIDIUM, *METALS, *X-ray crystallography
Abstract

The chemical reduction of π‐conjugated bilayer nanographene 1 (C138H120) with K and Rb in the presence of 18‐crown‐6 affords [K+(18‐crown‐6)(THF)2][{K+(18‐crown‐6)}2(THF)0.5][C138H1223−] (2) and [Rb+(18‐crown‐6)2][{Rb+(18‐crown‐6)}2(C138H1223−)] (3). Whereas K+ cations are fully solvent‐separated from the trianionic core thus affording a "naked" 1.3− anion, Rb+ cations are coordinated to the negatively charged layers of 1.3−. According to DFT calculations, the localization of the first two electrons in the helicene moiety leads to an unprecedented site‐specific hydrogenation process at the carbon atoms located on the edge of the helicene backbone. This uncommon reduction‐induced site‐specific hydrogenation provokes dramatic changes in the (electronic) structure of 1 as the helicene backbone becomes more compressed and twisted upon chemical reduction, which results in a clear slippage of the bilayers. [ABSTRACT FROM AUTHOR]

Published
2022
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13. Reduction of π‐Expanded Cyclooctatetraene with Lithium: Stabilization of the Tetra‐Anion through Internal Li+ Coordination.

Author

Zhou, Zheng, Zhu, Yikun, Wei, Zheng, Bergner, John, Neiß, Christian, Doloczki, Susanne, Görling, Andreas, Kivala, Milan, and Petrukhina, Marina A.

Subjects
*LITHIUM, *CHEMICAL reduction, *CRYSTAL structure, *CARBANIONS, *DIANIONS
Abstract

The chemical reduction of a π‐expanded polycyclic framework comprising a cyclooctatetraene moiety, octaphenyltetrabenzocyclooctatetraene, with lithium metal readily affords the corresponding tetra‐anion instead of the expected aromatic dianion. As revealed by X‐ray crystallography, the highly contorted tetra‐anion is stabilized by coordination of two internally bound Li+, while two external cations remain solvent separated. The variable‐temperature 7Li NMR spectra in THF confirm the presence of three types of Li+ ions and clearly differentiate internal binding, consistent with the crystal structure. Density‐functional theory calculations suggest that the formation of the highly charged tetra‐reduced carbanion is stabilized through Li+ coordination under the applied experimental conditions. [ABSTRACT FROM AUTHOR]

Published
2021
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16. Negative Charge as a Lens for Concentrating Antiaromaticity: Using a Pentagonal "Defect" and Helicene Strain for Cyclizations.

Author

Zhou, Zheng, Kawade, Rahul Kisan, Wei, Zheng, Kuriakose, Febin, Üngör, Ökten, Jo, Minyoung, Shatruk, Michael, Gershoni‐Poranne, Renana, Petrukhina, Marina A., and Alabugin, Igor V.

Subjects
*ANTIAROMATICITY, *AROMATICITY, *DIANIONS, *LIGHT absorbance, *PROTON transfer reactions
Abstract

Incorporation of a five‐membered ring into a helicene framework disrupts aromatic conjugation and provides a site for selective deprotonation. The deprotonation creates an anionic cyclopentadienyl unit, switches on conjugation, leads to a >200 nm red‐shift in the absorbance spectrum and injects a charge into a helical conjugated π‐system without injecting a spin. Structural consequences of deprotonation were revealed via analysis of a monoanionic helicene co‐crystallized with {K+(18‐crown‐6)(THF)} and {Cs+2(18‐crown‐6)3}. UV/Vis‐monitoring of these systems shows a time‐dependent formation of mono‐ and dianionic species, and the latter was isolated and crystallographically characterized. The ability of the twisted helicene frame to delocalize the negative charge was probed as a perturbation of aromaticity using NICS scans. Relief of strain, avoidance of antiaromaticity, and increase in charge delocalization assist in the additional dehydrogenative ring closures that yield a new planarized decacyclic dianion. [ABSTRACT FROM AUTHOR]

Published
2020
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18. Synthesis of the Unknown Indeno[1,2- a]fluorene Regioisomer: Crystallographic Characterization of Its Dianion.

Author

Dressler, Justin J., Zhou, Zheng, Marshall, Jonathan L., Kishi, Ryohei, Takamuku, Shota, Wei, Zheng, Spisak, Sarah N., Nakano, Masayoshi, Petrukhina, Marina A., and Haley, Michael M.

Subjects
*FLUORENE compounds, *CRYSTALLOGRAPHY, *DIANIONS, *BIRADICALS, *SINGLE crystals
Abstract

Of the five possible indenofluorene regioisomers, examples of a fully conjugated indeno[1,2- a]fluorene scaffold have so far remained elusive. This work reports the preparation and characterization of 7,12-dimesitylindeno[1,2- a]fluorene as a highly reactive species. Experimental and computational data support the notion of a molecule with pronounced diradical character that exists in a triplet ground state. As such, both NICS and ACID calculations suggest that the indeno[1,2- a]fluorene scaffold is weakly Baird aromatic. Reduction of the unstable red solid with Cs metal produces the dianion of the title compound, from which single crystals could be obtained and X-ray data acquired, thus fully corroborating the proposed indeno[1,2- a]fluorene hydrocarbon core. [ABSTRACT FROM AUTHOR]

Published
2017
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19. Back Cover: Site‐Specific Reduction‐Induced Hydrogenation of a Helical Bilayer Nanographene with K and Rb Metals: Electron Multiaddition and Selective Rb+ Complexation (Angew. Chem. Int. Ed. 10/2022)

Author

Zhou, Zheng, Fernández‐García, Jesús M., Zhu, Yikun, Evans, Paul J., Rodríguez, Rafael, Crassous, Jeanne, Wei, Zheng, Fernández, Israel, Petrukhina, Marina A., and Martín, Nazario

Abstract

Reduction‐induced hydrogenation of a helical bilayer nanographene (C138H120) with K or Rb in 18‐crown‐6 is reported by Israel Fernández, Marina A. Petrukhina, Nazario Martín, and co‐workers in their Research Article (e202115747). DFT calculations predict that localization of the first two electrons in the helicene moiety leads to a site‐specific hydrogenation at the carbon atoms located on the edge of the central [6]helicene backbone (pink hydrogens). The third electron forms a radical trianion on the HBC leading to a final Rb complex. [ABSTRACT FROM AUTHOR]

Published
2022
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