17O solid state NMR as a valuable tool for deciphering reaction mechanisms in mechanochemistry: the case study on the 17 O-enrichment of hydrated Ca-pyrophosphate biominerals - Archive ouverte HAL
Article Dans Une Revue Faraday Discussions Année : 2023

17O solid state NMR as a valuable tool for deciphering reaction mechanisms in mechanochemistry: the case study on the 17 O-enrichment of hydrated Ca-pyrophosphate biominerals

Xiaoling Wang
Ivan Hung
Zhehong Gan

Résumé

The possibility of enriching in 17O the water molecules within hydrated biominerals belonging to the Ca-pyrophosphate family was investigated, using liquid assisted grinding (LAG) in the presence of 17O-labelled water. Two phases with different hydration levels, namely triclinic calcium pyrophosphate dihydrate (Ca2P2O7·2H2O, denoted t-CPPD) and monoclinic calcium pyrophosphate tetrahydrate (Ca2P2O7·4H2O, denoted m-CPPT β) were enriched in 17O using a “post-enrichment” strategy, in which the non-labelled precursors were ground under gentle milling conditions in the presence of stoichiometric quantities of 17O-enriched water (introduced here in very small volumes ∼10 μL). Using high-resolution 17O solid-state NMR (ssNMR) analyses at multiple magnetic fields, and dynamic nuclear polarisation (DNP)-enhanced 17O NMR, it was possible to show that the labelled water molecules are mainly located at the core of the crystal structures, but that they can enter the lattice in different ways, namely by dissolution/recrystallisation or by diffusion. Overall, this work sheds light on the importance of high-resolution 17O NMR to help decipher the different roles that water can play as a liquid-assisted grinding agent and as a reagent for 17O-isotopic enrichment.

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Chimie
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hal-03846476 , version 1 (10-11-2022)

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Ieva Goldberga, Nicholai D Jensen, Christèle Combes, Frédéric Mentink-Vigier, Xiaoling Wang, et al.. 17O solid state NMR as a valuable tool for deciphering reaction mechanisms in mechanochemistry: the case study on the 17 O-enrichment of hydrated Ca-pyrophosphate biominerals. Faraday Discussions, 2023, 241, pp.250-265. ⟨10.1039/d2fd00127f⟩. ⟨hal-03846476⟩
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