Congratulations to all of the recipients of funding from Independent Research Fund Denmark

The list of successful applicants of funding from Independent Research Fund Denmark has been revealed and iNANO affiliated researchers receive a good share of the DKK 750 million awarded for excellent research. See the list here.

2018.05.03 | Lise Refstrup Linnebjerg Pedersen

The Independent Research Fund Denmark (Danmarks Frie Forskningsfond, DFF) allocates funding for research based on criteria for a high level of excellence and originality in the research projects. With their strategy they aim to ensure that new knowledge of the highest scientific quality is created and spread in society and is effective nationally as well as internationally. 

DFF awards fundings via five academic research councils, and most often iNANO researchers have received funding from the Research Council for Nature and Universe (FNU) and the Research Council for Technology and Production (FTP).

Independent Research Fund Denmark: https://dff.dk/en

Read the press release from DFF on the DKK 750 million of funding here (in Danish only) 

Congratulations to the following succesful applicants:

Research project title Awardee Amount (DKK)
FNU Project 11    
Multimodal 3D X-ray imaging of bone nano- and micro-structure Henrik Birkedal 2.591.260
The influence of temperature on multiphase reactivity and growth of atmospheric aerosols Marianne Glasius 2.590.954
Regulation of G-quadruplex DNA Formation in Human Gene Promoters Birgitta Ruth Knudsen 2.591.332
Tailoring of organo-functionalized MoS2 for photocatalytic H2 production Nina Lock 2.574.498
Formation of pathogenic and functional amyloids: Influence of membrane-mimicking interfaces Jan Skov Pedersen 2.591.065
FNU Project 22    
Anharmonicity and bonding in crystalline materials (ABCMAT) Bo Brummerstedt Iversen 5.711.848
Femtosecond time-resolved imaging of bimolecular reactions Henrik Stapelfeldt   5.539.532     
FTP Project 11    
High-precision radio-therapy dose evaluation in three dimensions based on optically-stimulated luminescence (PreciDose3D) Peter Balling 2.591.333
FTP Project 22    
Chaperon-Assisted Delivery of Phenylalanine Ammonia-Lyase for the Oral Treatment of Phenylketonuria Brigitte Maria Städler 5.035.822

 

1Project 1: Research projects within an economic framework of up to 1,800,000 DKK excl. overhead

2Project 2: Research projects within an economic framework between 1,800,000 and 4,100,000 DKK excl. overhead

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