Litcius/Paper detail

Clinical-Scale Production of Nearly Pure (>98.5%) Parahydrogen and Quantification by Benchtop NMR Spectroscopy

Shiraz Nantogma, Baptiste Joalland, Ken Wilkens, Eduard Y. Chekmenev

2021Analytical Chemistry49 citationsDOIOpen Access PDF

Abstract

Because of the extensive chemical, physical, and biomedical applications of parahydrogen, the need exists for the development of highly enriched parahydrogen in a robust and efficient manner. Herein, we present a parahydrogen enrichment equipment which substantially improves upon the previous generators with its ability to enrich parahydrogen to >98.5% and a production rate of up to 4 standard liters per minute with the added advantage of real-time quantification. Our generator employs a pulsed injection system with a 3/16 in. outside diameter copper spiral tubing filled with iron-oxide catalyst. This tubing is mated to a custom-made copper attachment to provide efficient thermal coupling to the cold head. This device allows for robust operation at high pressures up to 34 atm. Real-time quantification by benchtop NMR spectroscopy is made possible by direct coupling of the p-H2 outlet from the generator to a 1.4 T NMR spectrometer using a regular 5 mm NMR tube that is continuously refilled with the exiting parahydrogen gas at ∼8 atm pressure. The use of high hydrogen gas pressure offers two critical NMR signal detection benefits: increased concentration and line narrowing. Our work presents a comprehensive description of the apparatus for a convenient and robust parahydrogen production, distribution, and quantification system, especially for parahydrogen-based hyperpolarization NMR research.

Topics & Concepts

Spin isomers of hydrogenChemistryHyperpolarization (physics)Nuclear magnetic resonance spectroscopyHydrogenAnalytical Chemistry (journal)ChromatographyOrganic chemistryAdvanced NMR Techniques and ApplicationsAtomic and Subatomic Physics ResearchAdvanced MRI Techniques and Applications