2024-12-24 21:35:44
Author: Tokyo Institute of Technology; Japan Science and Technology Agency / 2023-07-24 13:41 / Source: Tokyo Institute of Technology; Japan Science and Technology Agency

Great strides for carbon capture using earth-abundant elements as photocatalytic system

TOKYO,Nov. 29,2018 -- Researchers at Tokyo Institute of Technology have designed a CO2 reduction method based only on commonly occurring elements. Achieving a 57% overall quantum yield of CO2 reduction products,it is the highest performing system of its kind reported to date,raising prospects for cost-effective carbon capture solutions.

As global warming presents one of the biggest challenges to humanity in the 21st century,the quest to curb mounting CO2 emissions is more pressing than ever.

In a study published in the Journal of the American Chemical Society,Osamu Ishitani and colleagues at Tokyo Institute of Technology (Tokyo Tech) and Japan's National Institute of Advanced Industrial Science and Technology report a photocatalytic[1] system that brings scientists closer to achieving artificial photosynthesis — the goal of creating a sustainable system similar to the way that plants convert CO2 to useful energy by using earth abundant metals.

Although metal-complex photocatalytic systems have been reported for CO2 reduction,many of them used noble- and/or rare-metal complexes. Compared to these approaches that utilize rare metals (such as ruthenium and rhenium),the use of earth abundant metals is "greener" and inexpensive,and has thus attracted much interest.

Their new process is made up of two components: 1) a copper complex (CuPS) that behaves as a redox photosensitizer[2] and 2) a manganese-based catalyst,Mn(4OMe).

CuPS proved to be a stable and efficient redox photosensitizer,as decomposition was only 2% after 12 hours of irradiation. In addition,CuPS exhibited a much stronger reduction capability compared to other photosensitizers investigated to date.

The team reported that the total quantum yield of CO2 reduction products was 57%,the turnover number based on the manganese catalyst was over 1300 and the selectivity of CO2 reduction was 95%.

In particular,the figure of 57% is remarkable,as the researchers comment: "To the best of our knowledge,this is the highest quantum yield for CO2 reduction using abundant elements and the yield would be comparable to that obtained with rare metals."

The study highlights the way that incremental advances in chemistry may have a large impact on the wider goal of working towards a fossil-fuel-free future.

The research was supported by the Japan Science and Technology Agency's CREST program aimed at accelerating strategic innovation.

Technical terms

[1] Photocatalytic: Referring to a light-driven process that can accelerate a particular reaction of interest.

[2] Redox photosensitizer: A component that initiates the photochemical one-electron transfer from a reductant to a catalyst.

References

Hiroyuki Takeda,Hiroko Kamiyama,Kouhei Okamoto,Mina Irimajiri,Toshihide Mizutani,Kazuhide Koike‡,Akiko Sekine and Osamu Ishitani,Highly Efficient and Robust Photocatalytic Systems for CO2 Reduction Consisting of a Cu(I) Photosensitiser and Mn(I) Catalysts,Journal of the American Chemical Society (2018),DOI: 10.1021/jacs.8b10619


Associations:


Department of Chemistry,School of Science,Tokyo Institute of Technology


* National Institute of Advanced Industrial Science and Technology

Related links


Osamu Ishitani - Seeking photocatalysts for chemical energy


https://www.titech.ac.jp/english/research/stories/faces15_ishitani.html

Ishitani-Maeda Laboratory


http://www.chemistry.titech.ac.jp/~ishitani/en/index_en.html

Reducing CO2 with common elements and sunlight


https://www.titech.ac.jp/english/news/2018/041799.html

[Mn(bipyridyl)(CO)3Br]: An Abundant Metal Carbonyl Complex as Efficient Electrocatalyst for CO2 Reduction


https://onlinelibrary.wiley.com/doi/abs/10.1002/anie.201103616

About Tokyo Institute of Technology

Tokyo Tech stands at the forefront of research and higher education as the leading university for science and technology in Japan. Tokyo Tech researchers excel in fields ranging from materials science to biology,computer science,and physics. Founded in 1881,Tokyo Tech hosts over 10,000 undergraduate and graduate students per year,who develop into scientific leaders and some of the most sought-after engineers in industry. Embodying the Japanese philosophy of "monotsukuri," meaning "technical ingenuity and innovation," the Tokyo Tech community strives to contribute to society through high-impact research. www.titech.ac.jp/english/

About Japan Science and Technology Agency (JST)

JST is an organization that leads Japan's science and technology (S&T) development as an innovation navigator. We aim to contribute to the lives of people and the achievement of a sustainable society by promoting S&T for the purpose of opening up opportunities in innovation. Since its foundation,JST's many outstanding achievements accomplished in collaboration with the government,universities,the industrial sector and public have been earned global recognition. www.jst.go.jp/EN/index.html

Great strides for carbon capture using earth-abundant elements as photocatalytic system

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