An integrated Re(I) photocatalyst and sensitizer that activates the formation of formic acid from reduction of CO2
publication
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Abstract
Summary
A photochemical reduction of CO2 to formic acid was shown using the rhenium catalyst and sensitizer [Re(bpy)2(CO)2][OTf] (100760) in combination with the supplemental photosensitizer [Ru(bpy)3][PF6] (100808). Turnover numbers (TONs) up to 2750 for formic acid were reached in dimethylacetamide. The experiments were conducted under visible-light irradiation (λ = 405 nm) with TEOA (see section SEDs below) as sacrificial electron donor.
Advances and special progress
A unprecedented rhenium complex was used as an integrated photosensitizer/catalyst to generate formic acid from CO2; other rhenium catalysts only allow for the formation of CO as the reduction product.
Additional remarks
The complex [Re(bpy)2(CO)2][OTf] (100760) can act both as a photocatalyst and sensitizer, but its performance is considerably enhanced by the addition of [Ru(bpy)3][PF6] (100808) as supplemental photosensitizer. The variation of the catalyst concentration also showed a drastic influence on the performance of the catalytic system.
Content of the published article in detail
The article contains results for the reduction of CO2 to formic acid under visible-light catalysis using a rhenium complex as a catalyst. The catalytic system performs best (referring to the TON of formic acid production) in dimethylacetamide.
Catalyst
Photosensitizer
Investigations
| cat | cat conc [µM] | PS | PS conc [mM] | e-D | solvent A | . | . | λexc [nm] | . | TON H2 | TON HCOOH | . | . | ||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| (edit) | 1. | [Ru(bpy)3][PF6] | 0.8 | TEOA | DMA | 405 nm | 1.75 | 12.5 | |||||||
| (edit) | 2. | [Ru(bpy)3][PF6] | 0.8 | TEOA | DMF | 405 nm | 2 | 15 | |||||||
| (edit) | 3. | [Ru(bpy)3][PF6] | 0.8 | TEOA | MeCN | 405 nm | 1.5 | 2.5 | |||||||
| (edit) | 4. | [Re(bpy)2(CO)2][OTf] | 0.8 | TEOA | DMA | 405 nm | 10.3 | ||||||||
| (edit) | 5. | [Re(bpy)2(CO)2][OTf] | 0.8 | [Ru(bpy)3][PF6] | 0.8 | TEOA | DMA | 405 nm | 1.5 | 52 | |||||
| (edit) | 6. | [Re(bpy)2(CO)2][OTf] | 0.8 | TEOA | DMF | 405 nm | 0.8 | 10.8 | |||||||
| (edit) | 7. | [Re(bpy)2(CO)2][OTf] | 0.8 | [Ru(bpy)3][PF6] | 0.8 | TEOA | DMF | 405 nm | 2.8 | 66 | |||||
| (edit) | 8. | [Re(bpy)2(CO)2][OTf] | 0.8 | [Ru(bpy)3][PF6] | 0.8 | TEOA | MeCN | 405 nm | |||||||
| (edit) | 9. | [Re(bpy)2(CO)2][OTf] | 0.8 | [Ru(bpy)3][PF6] | 0.8 | TEOA | MeCN | 405 nm | 2.8 | 11.5 |
Investigation-Name: Solvent effect study between DMA DMF and acetonitrile
| cat | cat conc [µM] | PS | PS conc [mM] | e-D | solvent A | . | . | λexc [nm] | . | TON H2 | TON HCOOH | . | . | ||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| (edit) | 1. | [Re(bpy)2(CO)2][OTf] | 0.2 | [Ru(bpy)3][PF6] | 0.2 | TEOA | DMF | 405 nm | 0 | 0 | |||||
| (edit) | 2. | [Re(bpy)2(CO)2][OTf] | 0.2 | [Ru(bpy)3][PF6] | 0.2 | TEOA | DMF | 405 nm | 1 | 12.5 | |||||
| (edit) | 3. | [Re(bpy)2(CO)2][OTf] | 0.2 | [Ru(bpy)3][PF6] | 0.2 | TEOA | DMF | 405 nm | 2.5 | 19.5 | |||||
| (edit) | 4. | [Re(bpy)2(CO)2][OTf] | 0.2 | [Ru(bpy)3][PF6] | 0.2 | TEOA | DMF | 405 nm | 4.5 | 50.5 | |||||
| (edit) | 5. | [Re(bpy)2(CO)2][OTf] | 0.2 | [Ru(bpy)3][PF6] | 0.2 | TEOA | DMF | 405 nm | 6 | 59.5 | |||||
| (edit) | 6. | [Re(bpy)2(CO)2][OTf] | 0.2 | [Ru(bpy)3][PF6] | 0.2 | TEOA | DMF | 405 nm | 8.5 | 69.25 |
Investigation-Name: Time profile in DMFREDIRECT Study on the concentration of catalystInvestigation-Name: Table 1
Sacrificial electron donor
In this study, the experiments were done with the sacrificial electron donor TEOA (100507).
Additives
No additives were tested in this study.
Investigations
- Effect of proton donor (Molecular process, Photocatalytic CO2 conversion experiments)
- Solvent effect study between DMA DMF and acetonitrile (Molecular process, Photocatalytic CO2 conversion experiments)
- Study on the concentration of catalyst (Molecular process, Photocatalytic CO2 conversion experiments)
- Time profile in DMF (Molecular process, Photocatalytic CO2 conversion experiments)
