Troels Skrydstrup Group

  • ORGANIC SYNTHESIS
  • Using gaseous molecules in combination with transition metals.
  • Utilizing two-chamber set-up for preparing and using hydrogen, CO2, CO, ethylene and more.
  • Using CO2 as a useful building block for important compounds used on an industrial scale.

News

Coincidentally(?), the rocket on the students' t-shirts tied in rather nicely with the Dean's speech, which linked the Open Science platform with the research behind the Apollo 11 mission. In this photo, the students are listening to lead materials specialist Allan Hjarbæk Holm from Grundfos, who is talking about the Grundfos group's long-term goals and expectations in connection with Open Science. Photo: Peter F. Gammelby, AU

2018.06.03 | iNano

Open Science Festival 2018 - launchpad for new ideas

Researchers, students and industry representatives met on Thursday, 31 May at iNANO for the Open Science Festival 2018 to celebrate open research collaboration.

Assoc. prof. Rikke Louise Meyer and prof. Daniel Otzen hosted, on this year's Biofilms 8 conference. (Photo: Lea Malling Bernard, CAP Partner)

2018.06.01 | iNano

iNANO researchers look back at successfully completed Biofilms 8 conference hosted by Aarhus University

310 researchers from 33 different countries made their way to Biofilms 8 at Aarhus University this week to discuss all aspects of bacterial biofilms for 3 days at the university Aula

A 3D scaffolded RNA origami octahedron with intrinsic siRNAs. The enzyme Dicer binds the structure (1) at specific recognition sites and cleaves the structure, which releases the siRNAs (2). The octahedron was demonstrated to efficiently silence a target reporter gene when transfected into H1299 cells. (Figure by Høiberg et al.)

2018.05.31 | iNano

New method for building 3D RNA nanostructure ready to knock down target genes

The research groups of assoc. prof. Ebbe S. Andersen and prof. Jørgen Kjems have recently published a paper in Biotechnology Journal describing the design, construction and characterization of an RNA origami with built-in small interfering RNAs (siRNAs).

Researchers from Carbon Dioxide Activation Center (CADIAC) at Interdisciplinary Nanoscience Centre, Aarhus University publish in Nature Catalysis.

2018.05.08 | iNano

Review in Nature Catalysis from CADIAC on methods for CO2-to-CO conversion

A series of negative consequences for our planet’s climate system are caused by a remarkably high concentration of atmospheric CO2 and determined effort are made in reusing CO2. In a review in Nature Catalysis, researchers from Carbon Dioxide Activation Center (CADIAC) at Interdisciplinary Nanoscience Centre, Aarhus University, cover the methods…

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