Intramolecular O···H Hydrogen Bonding of Salicylic Acid: Further Insights from O 1s XPS and <sup>1</sup>H NMR Spectra Using DFT Calculations

Hill, Alexander; Wang, Feng

doi:10.1021/acs.jpca.2c08981

Cited by 6 publications

(1 citation statement)

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“…We recently combined O 1s X-ray photoelectron spectroscopy (XPS) and 1 H NMR chemical shifts to study the intramolecular hydrogen bonding of salicylic acid. 24 The present analysis incorporates 1 H NMR spectroscopy with valence ionisation potentials (IP) as well as B 1s XPS to shed light on the functions of protic and hydridic hydrogens in these borane compounds. By combining these techniques, a comprehensive understanding of the interplay between electronic structure, chemical bonding and hydrogen behaviour within these compounds can be obtained.…”

Section: Introductionmentioning

confidence: 99%

Electronic structure study of H3BXH3 (X═B, N and P) as hydrogen storage materials using calculated NMR and XPS spectra

Wang,

Chong

2023

Aust. J. Chem.

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Boron-based materials have been used for hydrogen storage applications owing to their high volumetric and gravimetric hydrogen density. The present study quantum mechanically investigates the electronic structures of three compounds: diborane (DB, B2H6), ammonia borane (AB, H3BNH3) and phosphine borane (PB, H3BPH3). The exploration is facilitated using calculated nuclear magnetic resonance (NMR) chemical shifts, together with outer valence ionisation potentials (IP) and core electron binding energy (CEBE). The findings show a distinct electronic structure for diborane, differing notably from AB and PB, which exhibit certain similarities. Noteworthy dissimilarities are observed in the chemical environments of the bridge hydrogens and terminal hydrogens in diborane, resulting in a substantial chemical shift difference of up to 5.31 ppm. Conversely, in AB and PB, two distinct sets of hydrogens emerge: protic hydrogens (Hp–N and Hp–P) and hydridic hydrogens (Hh–B). This leads to chemical shifts as small as 0.42 ppm in AB and as significant as 3.0 ppm in PB. The absolute isotropic NMR shielding constant (σB) of 11B in DB is 85.40 ppm, in contrast to 126.21 ppm in AB and 151.46 ppm in PB. This discrepancy indicates that boron in PB has the most robust chemical environment among the boranes. This assertion finds support in the calculated CEBE for B 1s of 196.53, 194.01 and 193.93 eV for DB, AB and PB respectively. It is clear that boron in PB is the most reactive atom. Ultimately, understanding the chemical environment of the boranes is pivotal in the context of dehydrogenation processes for boron-based hydrogen storage materials.

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Section: Introductionmentioning

confidence: 99%

Electronic structure study of H3BXH3 (X═B, N and P) as hydrogen storage materials using calculated NMR and XPS spectra

Wang,

Chong

2023

Aust. J. Chem.

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Enhanced Fenton catalytic degradation of methylene blue by the synergistic effect of Fe and Ce in chitosan-supported mixed-metal MOFs (Fe/Ce-BDC@CS)

Zheng,

Ran,

Zhang

et al. 2024

International Journal of Biological Macromolecules

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Polycycloalkanes at the Helm: Exploring high energy density eFuel with norbornyl derivatives

Wang,

Chong

2024

Materials Today Chemistry

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Intramolecular O···H Hydrogen Bonding of Salicylic Acid: Further Insights from O 1s XPS and ¹H NMR Spectra Using DFT Calculations

Cited by 6 publications

References 65 publications

Electronic structure study of H3BXH3 (X═B, N and P) as hydrogen storage materials using calculated NMR and XPS spectra

Electronic structure study of H3BXH3 (X═B, N and P) as hydrogen storage materials using calculated NMR and XPS spectra

Enhanced Fenton catalytic degradation of methylene blue by the synergistic effect of Fe and Ce in chitosan-supported mixed-metal MOFs (Fe/Ce-BDC@CS)

Polycycloalkanes at the Helm: Exploring high energy density eFuel with norbornyl derivatives

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Intramolecular O···H Hydrogen Bonding of Salicylic Acid: Further Insights from O 1s XPS and 1H NMR Spectra Using DFT Calculations

Cited by 6 publications

References 65 publications

Electronic structure study of H3BXH3 (X═B, N and P) as hydrogen storage materials using calculated NMR and XPS spectra

Electronic structure study of H3BXH3 (X═B, N and P) as hydrogen storage materials using calculated NMR and XPS spectra

Enhanced Fenton catalytic degradation of methylene blue by the synergistic effect of Fe and Ce in chitosan-supported mixed-metal MOFs (Fe/Ce-BDC@CS)

Polycycloalkanes at the Helm: Exploring high energy density eFuel with norbornyl derivatives

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Product

Resources

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Intramolecular O···H Hydrogen Bonding of Salicylic Acid: Further Insights from O 1s XPS and ¹H NMR Spectra Using DFT Calculations