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Probing hydrogen activation in a dimetal dihydride complex by symmetric exchange with parahydrogen

Probing hydrogen activation in a dimetal dihydride complex by symmetric exchange with parahydrogen
Probing hydrogen activation in a dimetal dihydride complex by symmetric exchange with parahydrogen
We report an investigation into the hydrogen exchange mechanism in a dinickel(II) dihydride complex with C2v symmetry. To obtain atomic level information on the low-concentration intermediate species, we use parahydrogen in combination with nuclear magnetic resonance (NMR). Unexpectedly, despite the chemical equivalence of the two hydride sites imposed by the mirror symmetry of the model, we observe spontaneous conversion of the nuclear singlet order into in-phase longitudinal magnetization–something that normally requires sophisticated pulse sequences. The magnetization is retained upon reductive elimination of dihydrogen from the dihydride species and observed as an enhanced hydrogen NMR signal. This is explained by a chain of nuclear relaxation interference processes that do not require asymmetric intermediates; we confirm this in two ways: using analytical relaxation theory and with brute-force numerical simulations.
Hydrogen, Magnetic properties, nuclear magnetic resonance spectroscopy, peptides and proteins, polarization
0002-7863
7181-7188
Matz, Julius F.
e6382bbd-0b5f-43fe-95e3-ed84ae8d18aa
Kaltschnee, Lukas
fcb76c98-b0e4-40e6-b3cb-00afc2aba938
Mozzi, Sara I.
a71afca6-5dd7-4886-a011-3c55891e77da
Rodriguez, Gonzalo G.
a8ad1a40-74ef-49aa-b3e1-c0dcdb7dc17f
Römer, Anton
8ba6d7f3-5c2a-40f9-a408-92597c70d2a8
Mata, Ricardo A.
9b893204-9637-4106-8945-5118c8a4b6fe
Kuprov, Ilya
bb07f28a-5038-4524-8146-e3fc8344c065
Meyer, Franc
483f674e-9099-4cf0-9fa6-30a8009cb248
Glöggler, Stefan
ac98f078-6073-4783-973f-281616bdf3e6
Matz, Julius F.
e6382bbd-0b5f-43fe-95e3-ed84ae8d18aa
Kaltschnee, Lukas
fcb76c98-b0e4-40e6-b3cb-00afc2aba938
Mozzi, Sara I.
a71afca6-5dd7-4886-a011-3c55891e77da
Rodriguez, Gonzalo G.
a8ad1a40-74ef-49aa-b3e1-c0dcdb7dc17f
Römer, Anton
8ba6d7f3-5c2a-40f9-a408-92597c70d2a8
Mata, Ricardo A.
9b893204-9637-4106-8945-5118c8a4b6fe
Kuprov, Ilya
bb07f28a-5038-4524-8146-e3fc8344c065
Meyer, Franc
483f674e-9099-4cf0-9fa6-30a8009cb248
Glöggler, Stefan
ac98f078-6073-4783-973f-281616bdf3e6

Matz, Julius F., Kaltschnee, Lukas, Mozzi, Sara I., Rodriguez, Gonzalo G., Römer, Anton, Mata, Ricardo A., Kuprov, Ilya, Meyer, Franc and Glöggler, Stefan (2026) Probing hydrogen activation in a dimetal dihydride complex by symmetric exchange with parahydrogen. Journal of the American Chemical Society, 148 (7), 7181-7188. (doi:10.1021/jacs.5c18194).

Record type: Article

Abstract

We report an investigation into the hydrogen exchange mechanism in a dinickel(II) dihydride complex with C2v symmetry. To obtain atomic level information on the low-concentration intermediate species, we use parahydrogen in combination with nuclear magnetic resonance (NMR). Unexpectedly, despite the chemical equivalence of the two hydride sites imposed by the mirror symmetry of the model, we observe spontaneous conversion of the nuclear singlet order into in-phase longitudinal magnetization–something that normally requires sophisticated pulse sequences. The magnetization is retained upon reductive elimination of dihydrogen from the dihydride species and observed as an enhanced hydrogen NMR signal. This is explained by a chain of nuclear relaxation interference processes that do not require asymmetric intermediates; we confirm this in two ways: using analytical relaxation theory and with brute-force numerical simulations.

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Accepted/In Press date: 13 January 2026
Published date: 12 February 2026
Keywords: Hydrogen, Magnetic properties, nuclear magnetic resonance spectroscopy, peptides and proteins, polarization

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Local EPrints ID: 510611
URI: http://eprints.soton.ac.uk/id/eprint/510611
DOI: doi:10.1021/jacs.5c18194
ISSN: 0002-7863
PURE UUID: d110e857-3c2c-4ce4-92a9-02e9f87b7c40
ORCID for Ilya Kuprov: ORCID iD orcid.org/0000-0003-0430-2682

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Date deposited: 14 Apr 2026 16:35
Last modified: 15 Apr 2026 01:46

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Contributors

Author: Julius F. Matz
Author: Lukas Kaltschnee
Author: Sara I. Mozzi
Author: Gonzalo G. Rodriguez
Author: Anton Römer
Author: Ricardo A. Mata
Author: Ilya Kuprov ORCID iD
Author: Franc Meyer
Author: Stefan Glöggler

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