This review discusses the diversity of parahydrogen-induced hyperpolarization (PHIP) effects in chemistry, going beyond the well-established PASADENA, ALTADENA, hydrogenative PHIP (hPHIP), and signal amplification by reversible exchange (SABRE) approaches.
The key highlights and insights are:
Photo-PHIP and photo-SABRE: Laser-induced ligand dissociation from metal complexes can create reactive intermediates that rapidly react with parahydrogen (pH2), preserving the spin order of pH2 and allowing the observation of transient species and rapid kinetics.
Partially Negative Line (PNL) effect: The PNL effect arises from the reversible exchange of pH2 with a catalyst, leading to the detection of otherwise invisible transient species through changes in the H2 NMR line shape. The PANEL experiment exploits this effect to boost the sensitivity of intermediate detection by orders of magnitude.
oneH-PHIP: In certain reactions, only one of the two pH2-derived protons exhibits hyperpolarization in the final product, rather than the typical pairwise addition. This effect has been observed for aldehydes, metal hydride complexes, and vinyl-containing species, providing insights into reaction mechanisms.
Metal-free PHIP (MF-PHIP): Frustrated Lewis pairs and bi- and tetraradicaloids can activate pH2 and induce hyperpolarization without the use of transition metal catalysts, demonstrating alternative routes to conventional hydrogenation.
Chemically relayed polarization transfer: Polarization can be transferred between pH2 and a molecular target through chemical exchange processes, expanding the reach of PHIP without the need for specialized precursors.
PHIP in enzymatic hydrogenation: PHIP has been used to uncover the H2 activation mechanisms of hydrogenase enzymes.
By reviewing these diverse PHIP phenomena, the authors aim to broaden the understanding and unlock the hidden potential of this rapidly evolving field, nearly 40 years after its first discovery.
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by Andr... alle arxiv.org 10-01-2024
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