20 results on '"Zhou Zheng"'
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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)
3. Taming Chiral Quaternary Stereocenters via Remote H‐Bonding Stereoinduction in Palladium‐Catalyzed (3+2) Cycloadditions.
4. Site‐Specific Reduction‐Induced Hydrogenation of a Helical Bilayer Nanographene with K and Rb Metals: Electron Multiaddition and Selective Rb+ Complexation
5. Stepwise Generation of Mono‐, Di‐, and Triply‐Reduced Warped Nanographenes: Charge‐Dependent Aromaticity, Surface Nonequivalence, Swing Distortion, and Metal Binding Sites
6. Chemical Reduction of a Nanosized [6]Cyclo‐2,7‐naphthylene Macrocycle
7. Site‐Specific Reduction‐Induced Hydrogenation of a Helical Bilayer Nanographene with K and Rb Metals: Electron Multiaddition and Selective Rb+ Complexation.
8. Reduction of π‐Expanded Cyclooctatetraene with Lithium: Stabilization of the Tetra‐Anion through Internal Li+ Coordination
9. Compressing Double [7]Helicene by Successive Charging with Electrons
10. Negative Charge as a Lens for Concentrating Antiaromaticity: Using a Pentagonal “Defect” and Helicene Strain for Cyclizations
11. Charging OBO‐Fused Double [5]Helicene with Electrons
12. Cover Picture: Stepwise Reduction of Azapentabenzocorannulene (Angew. Chem. Int. Ed. 35/2019)
13. Reduction of π‐Expanded Cyclooctatetraene with Lithium: Stabilization of the Tetra‐Anion through Internal Li+ Coordination.
14. Stepwise Reduction of Azapentabenzocorannulene
15. Structural and Electronic Effects of Stepwise Reduction of a Tetraaryl[3]Cumulene
16. Negative Charge as a Lens for Concentrating Antiaromaticity: Using a Pentagonal "Defect" and Helicene Strain for Cyclizations.
17. Synthesis of the Unknown Indeno[1,2‐ a ]fluorene Regioisomer: Crystallographic Characterization of Its Dianion
18. Synthesis of the Unknown Indeno[1,2- a]fluorene Regioisomer: Crystallographic Characterization of Its Dianion.
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)
20. Site‐Specific Reduction‐Induced Hydrogenation of a Helical Bilayer Nanographene with K and Rb Metals: Electron Multiaddition and Selective Rb+ Complexation.
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