Function-Integrated Ru Catalyst for Photochemical CO2 Reduction

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DOI 10.1021/jacs.8b09933
Authors Sze Koon Lee, Mio Kondo, Masaya Okamura, Takafumi Enomoto, Go Nakamura, Shigeyuki Masaoka,
Submitted 25.11.2018
Published online 25.11.2018
Licenses -
Subjects Colloid and Surface Chemistry, Biochemistry, General Chemistry, Catalysis
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Abstract[edit | edit source]

Summary[edit | edit source]

A photochemical reduction of CO2 to CO was shown using the ruthenium catalyst and sensitizer Ru(dppq)(tpy)(MeCN). Turnover numbers (TONs) up to 353 and a selectivity of 97% for CO were reached in dimethylacetamide/water. The experiments were conducted under visible-light irradiation (λ = 420-750 nm) with BIH or TEOA (see section SEDs below) as sacrificial electron donors.

Advances and special progress[edit | edit source]

The authors describe the at that time first example of a nonsensitized Ru(II) photocatalyst for CO2 reduction. The reported catalyst showed a higher TON and selectivity than previously reported nonsensitized photocatalysts.

Additional remarks[edit | edit source]

The product selectivity can be tuned by modification of the basicity of the reaction media. Formic acid can be produced with a selectivity of >99% and a TON of 14 when switching to a dimethylacetamide/TEOA mixture.

Content of the published article in detail[edit | edit source]

The article contains results for the reduction of CO2 to CO under visible-light catalysis using a ruthenium as a catalyst without the need for an additional sensitizer. The catalytic system performs best (referring to the TON of CO production) in dimethylacetamide/water and can be modified to produce formic acid in dimethylacetamide/TEOA.

Catalyst/Photosensitizer[edit | edit source]

Ru(dppq)(tpy)(MeCN)

Investigation[edit | edit source]

catcat conc [µM]e-De-D conc [M]solvent A..additivesλexc [nm].TON CO..TON H2TON HCOOH..
1.

Ru(dppq)(tpy)(MeCN)

0.04

BIH

0.1

DMA

420-7505813
2.

Ru(dppq)(tpy)(MeCN)

0.04

BIH

0.1

DMA

Argon atmosphere420-750
3.


BIH

0.1

DMA

420-750
4.

Ru(dppq)(tpy)(MeCN)

0.04


DMA

420-750
5.

Ru(dppq)(tpy)(MeCN)

0.04

BIH

0.1

DMA

dark
6.

Ru(dppq)(tpy)(MeCN)

0.04

TEOA

DMA

420-75014
Investigation-Name: Control experiments

The catalyst acts also as photosensitizer

catcat conc [µM]e-De-D conc [M]solvent A...λexc [nm].TON COTON H2TON HCOOH.
1.

Ru(dppq)(tpy)(MeCN)

0.02

BIH

0.1

DMA

Xenon lamp (420 - 750)7318
2.

Ru(dppq)(tpy)(MeCN)

0.04

BIH

0.1

DMA

Xenon lamp (420 - 750)5813
3.

Ru(dppq)(tpy)(MeCN)

0.08

BIH

0.1

DMA

Xenon lamp (420 - 750)292
4.

Ru(dppq)(tpy)(MeCN)

0.04

BIH

0.1

MeCN

Xenon lamp (420 - 750)4215
5.

Ru(dppq)(tpy)(MeCN)

0.04

BIH

0.1

DMA

Xenon lamp (420 - 750)6719
6.

Ru(dppq)(tpy)(MeCN)

0.04

BIH

0.1

DMA

Xenon lamp (420 - 750)2016
Investigation-Name: Concentration and solvent effect
catcat conc [µM]e-De-D conc [M]solvent A..additives.λexc [nm].TON CO.
1.

Ru(dppq)(tpy)(MeCN)

0.04

BIH

0.1

DMA

Xenon lamp (420 - 750)4.6
2.

Ru(dppq)(tpy)(MeCN)

0.04

BIH

0.1

DMA

Hg(0)Xenon lamp (420 - 750)4.1
Investigation-Name: Hg poisoning
catcat conc [µM]e-De-D conc [M]solvent A...λexc [nm].TON CO.
1.

Ru(dppq)(tpy)(MeCN)

0.04

BIH

0.1

DMA

Xenon lamp (420 - 750)1.2
2.

Ru(dppq)(tpy)(MeCN)

0.04

BIH

0.1

DMA

Xenon lamp (420 - 750)4.6
Investigation-Name: Presence of water effect
catcat conc [µM]e-De-D conc [M]solvent A...λexc [nm].TON CO..
1.

Ru(dppq)(tpy)(MeCN)

0.005

BIH

0.2

DMA

Xenon lamp (420 - 750)353
Investigation-Name: Maximum TON

Sacrificial electron donor[edit | edit source]

In this study, the experiments were done with the sacrificial electron donors TEOA (100507) and BIH (100508).

Additives[edit | edit source]

In this study, the addition of Hg(0) was tested and control experiments under argon atmosphere were conducted.

Investigations