Rhenium(I) trinuclear rings as highly efficient redox photosensitizers for photocatalytic CO2 reduction: Difference between revisions
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{{DOI|doi=10.1039/c6sc01913g}}{{MissingInvestigation}} | {{DOI|doi=10.1039/c6sc01913g}}{{MissingInvestigation}} | ||
===Abstract=== | ===Abstract=== | ||
==== Summary==== | ==== Summary==== | ||
Revision as of 14:03, 16 February 2024
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Abstract
Summary
A photochemical reduction of CO2 to CO or formic acid was shown using the bipyridine-based rhenium, ruthenium and manganese catalysts [Re(bpy)(CO)3(MeCN)][PF6], Ru(dtBubpy)(CO)2Cl2 or Molecule with key WCQGNVNGTWFVLO-UHFFFAOYSA-N does not exist. in combination with cyclic rhenium-based trinuclear redox photosensitizers. Turnover numbers (TONs) of up to 290 for formic acid were reached in DMA with the ruthenium complex Ru(dtBubpy)(CO)2Cl2 and photosensitizer Molecule with key KSOIVZAANOLODS-UHFFFAOYSA-T does not exist.. For CO production, TONs of up to 98 were obtained in DMF with the rhenium complex [Re(bpy)(CO)3(MeCN)][PF6] and photosensitizer Molecule with key LOLRMPNEYKEGPF-UHFFFAOYSA-T does not exist.. The experiments were conducted under visible-light irradiation (λ = 436 nm) using TEOA as sacrificial electron donor (see section SEDs below).
Advances and special progress
Re(I)-based trinuclear photosensitizers were developed and allowed for high product selectivities for CO or formic acid in CO2 reduction attempts with different bipyridine-based catalysts.
Additional remarks
Content of the published article in detail
The article contains results for the reduction of CO2 to CO or formic acid under visible-light catalysis using bipyridine-based complexes and rhenium-based trinuclear rings as photosensitizers. The catalytic system performs best in DMA for formic acid production (referring to the TON of formic acid production) and in DMF for CO production.
Catalyst
[Re(bpy)(CO)3(MeCN)][PF6]
Ru(dtBubpy)(CO)2Cl2
Photosensitizer
Investigation
| cat | cat conc [µM] | PS | PS conc [mM] | solvent A | . | . | λexc [nm] | . | TON CO | . | . | . | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 1. | 0.05 | 0.05 | 436 | 27 | |||||||||
| 2. | 0.05 | 0.05 | 436 | 98 | |||||||||
| 3. | 0.05 | 0.05 | 436 | 22 | |||||||||
| 4. | 0.05 | 0.05 | 436 | 71 | |||||||||
| 5. | 0.05 | 436 | 6 | ||||||||||
| 6. | 0.05 | 436 | 8 | ||||||||||
| 7. | 0.05 | 0.05 | 436 | 20 | |||||||||
| 8. | 0.05 | 0.05 | 436 | 32 | |||||||||
| 9. | 0.05 | 0.05 | 436 | 11 | |||||||||
| 10. | 0.05 | 0.05 | 436 | 48 |
| cat | cat conc [µM] | PS | PS conc [mM] | e-D | e-D conc [M] | solvent A | . | . | λexc [nm] | . | TON CO | TON H2 | TON HCOOH | . | . | . | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 1. | 0.05 | 0.05 | 436 | 20 | 72 | 290 | |||||||||||
| 2. | 0.05 | 0.05 | 0.03 | 436 | 16 | 49 | 280 | ||||||||||
| 3. | 0.05 | 0.05 | 436 | 32 | 85 | ||||||||||||
| 4. | 0.05 | 0.05 | 0.03 | 436 | 80 | 60 |
Sacrificial Electron Donor
In this study, the experiments were done with the sacrificial electron donor TEOA (100507).
Additives
In this study, no additives were tested.
