Keyword [aromaticity]
Result: 21 - 40 | Page: 2 of 8 |
| 21. | A Valence Bond Study Of The Aromaticity Of Boron Clusters And Cyclopropane |
| 22. | The Theoretic Study Of The Structure And Aromaticity Of Purines |
| 23. | Theoretic Study On Aromaticity Of 3n(n=1, 2) Membered Rings |
| 24. | Theoretical Study On The Structuries, Bonding Energies And Aromaticities For The Sandwich Complexes Containing E42- (N, P, As, Sb And Bi) Ligands |
| 25. | Theoretical Design Of Superatom Compounds |
| 26. | Theoretical Study On The Structures And Aromaticities For The C3P3H3-Metal Sandwich Complexes |
| 27. | Theoretical Study On The Structures, Bonding Energies And Aromaticities For C6FmH6-m And (C6FmH6-m)2 Cr (m=1-6) |
| 28. | A Study On The Aromaticity Some Monocyclic Compounds |
| 29. | A Study On The Aromaticity Of Acenes And Its Related Compounds |
| 30. | A Study On The Aromaticity And Kinetic Stability Of The Boron-and Nitrogen-Substituted Fullerene C36 Insomer |
| 31. | Theoretical Study On The Correlation Between The Aromaticity And The Ring Stretching Vibration Roman Spectroscopy For The Aromatic Molecule |
| 32. | Theoretical Study On The Aromaticity Of Heterobenzenes And Intramolecular Proton Transfer Of2-(6’-hydroxy-heterophenyl) Benzomidazoles |
| 33. | Theoretical Investigation Into The Cooperativity Effect Of Na~+for Benzonitirle Hydrate |
| 34. | Topological Index Computing System And Its Applications |
| 35. | Contains The Theoretical Study Of Plane Four-coordinate And Five-coordinate Carbon Boron Carbon Compounds |
| 36. | Construction Of Multilayer Sandwich Compounds From Half-metal-sandwich: Theoretical Assessments |
| 37. | Structural And Bonding Analyses Of Double-Chain Ribbon, Triple-Ring Tube, And Cage-Like Boron Clusters |
| 38. | Theoretical Studies On The Structures And Properties Of (4,6)-Fullerenes |
| 39. | Syntheses, Structures And Property Investigation Of Metal Coordination Polymers Involving Flexible Aromaticity Carboxylic Acid |
| 40. | Study On Effect Of Aromaticity Of Coal And Hydrogen Bond To Calcium Retardant’s Inhibition For Coal Spontaneous Combustion |
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