Anomalously Large Antiphase Signals from Hyperpolarized Orthohydrogen Using a MOF-Based SABRE Catalyst

Hyperpolarized orthohydrogen (o-H-2) is a frequent product of parahydrogen-based hyperpolarization approaches like signal amplification by reversible exchange (SABRE), where the hyperpolarized o-H-2 signal is usually absorptive. We describe a novel manifestation of this effect wherein large antiphase o-H-2 signals are observed, with H-1 enhancements up to approximate to 500-fold (effective polarization P-H approximate to 1.6 %). This anomalous effect is attained only when using an intact heterogeneous catalyst constructed using a metal-organic framework (MOF) and is qualitatively independent of substrate nature. This seemingly paradoxical observation is analogous to the partial negative line (PNL) effect recently explained in the context of Parahydrogen Induced Polarization (PHIP) by Ivanov and co-workers. The two-spin order of the o-H-2 resonance is manifested by a two-fold higher Rabi frequency, and the lifetime of the antiphase HP o-H-2 resonance is extended by several-fold.

Automated summary

A novel phenomenon is described in which large antiphase o-H-2 signals are observed when using an intact heterogeneous catalyst constructed using a metal-organic framework (MOF), and this effect is qualitatively independent of substrate nature.