Welcome!

The Swedish Consortium for Artificial Photosynthesis is a collaborative research environment with the purpose of advancing the science and utilization of solar fuels - fuel from solar energy. We bring together leading scientists with expertise in a broad range of disciplines within chemistry, physics and biology. Together we do fundamental and applied research, developing solutions for a sustainable future. 

Upcoming events


CAP meeting

Datum:2024-09-03
09:00

Time: 9:00-12:30, Place: Ångström laboratory House 7. For details see: News&Events



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News

Princess R. Cabotaje receives global recognition

Princess R. Cabotaje, currently doing her PhD in the group of Gustav Berggren, was selected as one of the three finalists in the annual 3-minute thesis competition. In her presentation, she explained her research on rare NiFe hydrogenases that not only tolerate oxygen, but are also capable of extracting the trace amounts of hydrogen gas present in our atmosphere, thereby providing the bacteria with energy and seemingly allowing them to live on air. Though she did not win the competition, Princess won global recognition as a video of her performance, posted on social media, went viral.

Further reading: "Structural basis for bacterial energy extraction from atmospheric hydrogen."

 

 How water splits during photosynthesis

The final and crucial step of the water oxidation mechanism in Photosystem II has been investigated by the research group of Johannes Messinger in collaboration with groups at Lawrence Berkeley National Laboratory and others, using serial femtosecond x-ray crystallography. The work, which was published in Nature, will lead to a more complete understanding of the underlying mechanism of photosynthetic water oxidation, and offers inspiration for the development of water-splitting technologies to produce solar fuels.

Read the research paper in Nature, and the accompanying News&Views article.

How microorganisms extract hydrogen from the atmosphere

A biological method for extracting hydrogen from the atmosphere has been identified by members of the Gustav Berggren group, together with researchers from Australia and the USA, and published in Nature. The interdisciplinary group of researchers have isolated and mapped a unique variant of a nickel-iron hydrogenase that not only withstands oxygen, but is also capable of extracting trace amounts of hydrogen gas present in the atmosphere, thereby supplying the bacterium with energy. 

Read the news article from Uppsala university (in Swedish) or go directly to the Nature article.

The 2022 CAP workshop was a success!

In 2022, on September 27-28, enthusiastic CAP members gathered at Haga Slott in Enköping for two half-days of intense discussions, idea hatching, future shaping, and fun.

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  • Joao
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Images from the 2022 CAP workshop.

Peafowl Plasmonics raises 40 MSEK 

In seed round led by Industrifonden and the Wallenberg fund Navigare Ventures, the startup company Peafowl Plasmonics, founded by the CAP member Jacinto Sá, has raised enough capital to take the company to the next level. 

Read about it here (in Swedish): Peafowl Plasmonics har tagit fram genomskinliga solceller (di.se)  

The CAP workshop, September 27-28, 2022:

CAP at the meeting venue Haga Slott, Enköping, in September 2022.

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