Inexhaustible Spring of Hyperpolarization For Magnetic Resonance

ERC (European Research Council)HORIZON-ERCID: 101044726
EC Contribution
€29,900
Consortium Size
2 orgs
Start Year
2023
Summary

Nuclear magnetic resonance (NMR) has become a well-established and versatile tool in numerous fields of research and in industry, but features a relatively low sensitivity which prevents solving today’s most pressing challenges in modern science.Hyperpolarization by dissolution dynamic nuclear polarization (dDNP) provides a partial solution by enhancing sensitivity 10’000-fold. However, hyperpolarized solutions are available only once (single-shot), and are contaminated and diluted. This is incompatible with most NMR experiments, except for some niche applications.HypFlow will reach the ground-breaking overall aim of providing inexhaustible (multi-shot) and pure (unpolluted and undiluted) hyperpolarization, thus truly compatible with NMR by:1)designing and building a pulsed-DNP freeze&flow polarizer,2) integrating the use of hyperpolarizing matrices with polarized electrons, and3) validating multi-scan applications in metabolomics, drug discovery, and chemistry.Liquid NMR samples will freeze in the HypFlow system where high levels of polarization will be generated, will then melt and flow toward the spectrometer, and will recirculate repeatedly. This will offer, for the first-time, inexhaustible and pure hyperpolarization with a 10’000-fold boost in sensitivity.The PI has a unique combined leading expertise in most recent instrumental, methodological and chemical developments in dDNP that will empower him to tackle the scientific challenges of HypFlow.HypFlow will deepen the fundamental scientific knowledge of nuclear and electron spin polarization generation, transfer, and relaxation phenomena. It will enable detection of hyperpolarized samples in a fully compatible way with a broad range of NMR applications, radically transforming and democratizing the practice of hyperpolarized NMR in research laboratories and industries.

Consortium (2)

Project Results (6)

Source: CORDIS, the EU research results database.

Publications (5)
13C-Formate as an indirect low-temperature 1H lineshape polarimeter
Journal of Magnetic Resonance Open· 2024DOI
Stuart J. Elliott, Quentin Stern, Sami Jannin
Boosting <sup>1</sup> H and <sup>13</sup> C NMR signals by orders of magnitude on a bench
Science Advances· 2024DOI
Charlotte Bocquelet, Nathan Rougier, Huu-Nghia Le, Laurent Veyre, Chloe Thieuleux, Roberto Melzi, Armin Purea, Daniel Banks, James G. Kempf, Quentin Stern, Ewoud Vaneeckhaute, Sami Jannin
Dynamic Nuclear Polarization with Conductive Polymers
Angewandte Chemie International Edition· 2024DOI
Quentin Stern, Guillaume Verhaeghe, Tho El Dara, Damien Montarnal, Nghia Huu Le, Laurent Veyre, Chlo Thieuleux, Charlotte Bocquelet, Olivier Cala, Sami Jannin
Full optimization of dynamic nuclear polarization on a 1 tesla benchtop polarizer with hyperpolarizing solids
Physical Chemistry Chemical Physics· 2024DOI
Ewoud Vaneeckhaute, Charlotte Bocquelet, La Bellier, Huu-Nghia Le, Nathan Rougier, Shebha Anandhi Jegadeesan, Sanjay Vinod-Kumar, Guinevere Mathies, Laurent Veyre, Chloe Thieuleux, Roberto Melzi, Daniel Banks, James Kempf, Quentin Stern, Sami Jannin
Rapid and Simple <sup>13</sup>C-Hyperpolarization by <sup>1</sup>H Dissolution Dynamic Nuclear Polarization Followed by an Inline Magnetic Field Inversion
Journal of the American Chemical Society· 2023DOI
Quentin Stern, Quentin Reynard-Feytis, Stuart J. Elliott, Morgan Ceillier, Olivier Cala, Konstantin Ivanov, Sami Jannin
Other Results (1)
Periodic Reporting for period 1 - HypFlow (Inexhaustible Spring of Hyperpolarization For Magnetic Resonance)