Keyword [Chemical bonding]
Result: 41 - 60 | Page: 3 of 4 |
| 41. | Structures,Chemical Bonding,and Aromaticity Of Transition Metal Based Heterocyclic Clusters |
| 42. | Preparation And Characterization Of Antitumor Nanosystems Bonded With Hypoxic Responsive Drug |
| 43. | Theoretical Study On The Structure,stability,and Chemical Bonding Of Phosphorus-boron Binary Clusters P_xB_y(1?x?2,3?y?8) |
| 44. | Friction Stir Welding Of AZ31 Magnesium Alloy And DC01 Steel |
| 45. | Preparation Of Magnesium Oxalate Chemical Bonding Material And Study On Its Solidification Of Heavy Metal Zinc |
| 46. | Preparation And Performance Study Of Copper Slag-based Iron-based Phosphate Chemical Bonding Materials |
| 47. | Study On The Preparation Of Copper Slag-based Iron-based Phosphate Chemical Bonding Material And Its Solidification Of Heavy Metals |
| 48. | Ab initio search for novel borohydride building blocks with potential for hydrogen storage |
| 49. | Geometry and electronic structure of doped clusters via the coalescence Kick method |
| 50. | Structural flexibility in magnetocaloric RE5T4 (RE = rare-earth; T = silicon, germanium, gallium) materials: Effect of chemical substitution on structure, bonding and properties |
| 51. | Structural diversity and chemical bonding of complex polar intermetallics |
| 52. | Gradient bundle analysis: A full topological approach to chemical bonding |
| 53. | Electronic structure imperfections and chemical bonding at graphene interfaces |
| 54. | Photoelectron spectroscopy studies on the electronic structure and chemical bonding of novel atomic clusters |
| 55. | Stainless steel and silicon direct interface synthesis: Chemical bonding effects |
| 56. | Rationalizing structure, stability, and chemical bonding of pure and doped clusters, isolated and solvated multiply charged anions, and solid-state materials |
| 57. | Chemical bonding in hard and elastic amorphous carbon-nitride films |
| 58. | Direct measurements of chemical bonding at solid surfaces using a unique calorimetric method: Towards understanding surface chemistry in energy technologies |
| 59. | Atomic-level culprits of materials failure: The importance of chemical bonding at heterogeneous interfaces |
| 60. | STUDIES OF CHEMICAL BONDING USING X-RAY PHOTOELECTRON SPECTROSCOPY |
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