Table 1.
TOF values of catalysts for dehydrogenation of dimethylamine borane.
| Entry | (Pre) Catalysts | Conv. % | TOF (Turnover Frequency) | Ref. |
|---|---|---|---|---|
| 1 | AuNi@SiO2 | 100 | 546.9 | This Study |
| 2 | Carbon Stabilized Palladium particles | 95 | 2.8 | 49 |
| 3 | Grafen oxide-based Ruthenium nanoparticles | 100 | 410.01 | 50 |
| 4 | Rhodium (III) chloride | 90 | 7.9 | 49 |
| 5 | Iridium (III) chloride | 25 | 0.3 | 49 |
| 6 | Ruthenium (III) chloride | 77 | 2.7 | 49 |
| 7 | Vulcan Carbon-based Pt nanoparticles | 100 | 23.14 | 26 |
| 8 | BA-based Platinum nanomaterials | 100 | 24.8 | 18 |
| 9 | TBA-based Platinum nanoparticles | 100 | 31.24 | 18 |
| 10 | Polymer supported Ruthenium-Nickel | 100 | 458.57 | 19 |
| 11 | Amylamine stabilized Platinum Nanoparticles | 100 | 15.00 | 20 |
| 12 | Activated Carbon Stabilized Pt Nanoparticles | 100 | 34.14 | 21 |
| 13 | PVP stabilized Palladium-Cobalt nanoparticles | 100 | 330.00 | 22 |
| 14 | Grafen oxide-based RuPtNi nanomaterials | 100 | 727.00 | 23 |
| 15 | Carbon nanotube-based Ruthenium-cobalt nanoparticles | 100 | 775.28 | 24 |
| 16 | PEDOT supported Palladium Nickel Nanoparticles | 100 | 451.28 | 29 |
| 17 | Polymer-graphene based Platinum Nanomaterials | 100 | 42.94 | 25 |
| 18 | Graphene oxide stabilized Palladium-Nickel Nanomaterials | 100 | 271.90 | 32 |
| 19 | Graphene oxide-based Palladium Nanoparticles | 100 | 38.02 | 11 |
| 20 | Carbon black hybrid supported platinum nanomaterials | 100 | 70.28 | 26 |