Extrinsic Proton NMR Studies of Mg(OH)$_2$ and Ca(OH)$_2$

Y. Itoh; M. Isobe

arXiv:1603.00705·cond-mat.mtrl-sci·March 3, 2016

Extrinsic Proton NMR Studies of Mg(OH)$_2$ and Ca(OH)$_2$

Y. Itoh, M. Isobe

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TL;DR

This study uses proton NMR to analyze the behavior of mobile and immobile protons in Mg(OH)$_2$ and Ca(OH)$_2$ powders, revealing temperature-dependent spectral changes and characteristic frequencies related to extrinsic protons.

Contribution

It provides new insights into the extrinsic proton dynamics in Mg(OH)$_2$ and Ca(OH)$_2$ using detailed NMR spectral analysis across temperature and frequency ranges.

Findings

01

Narrow NMR spectra develop above 260 K

02

Spectral broadening occurs above 50 MHz for Mg(OH)$_2$

03

Temperature and frequency influence proton mobility signatures

Abstract

We studied narrow $^{1}$ H NMR spectra of Mg(OH) $_{2}$ and Ca(OH) $_{2}$ powders at 100 $-$ 355 K and 42 $-$ 59 MHz using pulsed NMR techniques. The Fourier transformed NMR spectra of the proton free-induction signals show the superposition of broad and narrow components, which can be assigned to immobile protons and extrinsic mobile protons, respectively. We found that a narrow spectrum develops on heating above about $T_{c}$ = 260 K and widens above a Larmor frequency of about $f_{c}$ = 50 MHz for Mg(OH) $_{2}$ . The temperature-induced NMR spectrum and the characteristic frequency $f_{c}$ of 50 MHz are the noteworthy features of the nuclear spin fluctuation spectra of the extrinsic protons.

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