2020
DOI: 10.3390/molecules25030469
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Local Electronic Structure in AlN Studied by Single-Crystal 27Al and 14N NMR and DFT Calculations

Abstract: Both the chemical shift and quadrupole coupling tensors for 14 N and 27 Al in the wurtzite structure of aluminum nitride have been determined to high precision by single-crystal NMR spectroscopy. A homoepitaxially grown AlN single crystal with known morphology was used, which allowed for optical alignment of the crystal on the goniometer axis. From the analysis of the rotation patterns of 14 N ( I = 1 ) and 27 Al ( I = 5 / 2 ), the quadrupolar coupling constants were… Show more

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Cited by 14 publications
(10 citation statements)
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“…After heating to 1600 • C/4 h/N 2 , a large peak at 114 ppm occurs, indicating AlN. [54][55][56] Another peak at 14 ppm suggests [AlO 6 ] units, but with different [AlO 6 ] peak positions and narrower when compared to Al-HMDS heated to 80 • and 800 • C. This suggests that the Al environment is more symmetrical for Al-HMDS heated to 1600 • C, likely a result of increased crystallinity, consistent with XRD in Figure 4A. EDX analysis suggests ∼15 at.% Cl content for the asdried Al-HMDS precursor, corresponding to -Cl inclusion indicated by MALDI (Figure 1).…”
Section: Characterization Of Al-hmdsmentioning
confidence: 99%
“…After heating to 1600 • C/4 h/N 2 , a large peak at 114 ppm occurs, indicating AlN. [54][55][56] Another peak at 14 ppm suggests [AlO 6 ] units, but with different [AlO 6 ] peak positions and narrower when compared to Al-HMDS heated to 80 • and 800 • C. This suggests that the Al environment is more symmetrical for Al-HMDS heated to 1600 • C, likely a result of increased crystallinity, consistent with XRD in Figure 4A. EDX analysis suggests ∼15 at.% Cl content for the asdried Al-HMDS precursor, corresponding to -Cl inclusion indicated by MALDI (Figure 1).…”
Section: Characterization Of Al-hmdsmentioning
confidence: 99%
“…a Drawing generated with the Vesta program [11]. Transformation of the CS tensor from the CRY frame to the PAS frame changes δ to diagonal form, with the eigenvalues δ 11 , δ 22 , and δ 33 placed on the main diagonal. The weighted trace of δ determines the isotropic chemical shift δ iso = 1/3(δ 11 + δ 22 + δ 33 ), with the asymmetry parameter of the CS tensor defined by η CS = (δ 22 − δ 11 )/∆δ.…”
Section: P Nmr Of Ldpmentioning
confidence: 99%
“…For 7 Li with spin I = 3/2, the quadrupolar coupling between the non-symmetric charge distribution of the nucleus and its electronic surroundings also needs to be considered [20]. The number of energy levels for a spin I in an external magnetic field is 2I + 1, resulting in 2I NMR transitions, which are classified according to their magnetic quantum number m. With a particular transition |m → |m + 1 designated by the parameter k = m + 1 2 [21,22], the resonance frequency ν m,m+1 of this transition may then be described by adding the contribution of the quadrupolar interaction to Equation (1):…”
Section: LI Nmr Of Ldpmentioning
confidence: 99%
“…In this Special Issue, Sorte et al [6] report a study of several Mg-based minerals by combining DFT calculations of 1 H chemical shifts with results from advanced 1 H NMR experimentation using dipolar interactions (see below). Moreover, Zeman et al [1] present DFT calculations of 27 Al and 14 N NMR parameters of AlN.…”
mentioning
confidence: 99%
“…NMR on single crystals normally offers the most accurate NMR parameters. Zeman et al [ 1 ] present such a single-crystal 27 Al and 14 N NMR study of aluminium nitride, from which valuable parameters relating to the electronic structure were extracted. Yet, such single-crystal NMR studies are nowadays rare: solid-state NMR experiments are merely conducted directly on powders of micrometer-sized particles under so-called magic-angle spinning (MAS) conditions, where the powder is spun at a tens-of-kHz rate.…”
mentioning
confidence: 99%