2019
DOI: 10.1088/1742-6596/1172/1/012044
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FTIR Spectroscopic Analysis in Comparison with Acoustical Nature in Mono, Di and Tri Methyl Substituent Liquid Mixtures

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Cited by 1 publication
(2 citation statements)
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“…These observations imply that water molecules can be adsorbed on the OH B groups by hydrogen bonding; in other words, the OV-mediated OH B groups on G-BiOBr act as Brönsted acid sites for the adsorption of water molecules. When substituting H 2 O for D 2 O, a similar adsorption behavior can be observed for both BiOBr samples (Figure B), where the δ­(D 2 O) and υ­(O–D) peaks shift toward lower wavenumbers, in complete agreement with Hooke’s Law . These experiments exactly demonstrate the key role of OVs as far as the formation of Brönsted acid sites is associated.…”
Section: Resultssupporting
confidence: 73%
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“…These observations imply that water molecules can be adsorbed on the OH B groups by hydrogen bonding; in other words, the OV-mediated OH B groups on G-BiOBr act as Brönsted acid sites for the adsorption of water molecules. When substituting H 2 O for D 2 O, a similar adsorption behavior can be observed for both BiOBr samples (Figure B), where the δ­(D 2 O) and υ­(O–D) peaks shift toward lower wavenumbers, in complete agreement with Hooke’s Law . These experiments exactly demonstrate the key role of OVs as far as the formation of Brönsted acid sites is associated.…”
Section: Resultssupporting
confidence: 73%
“…When substituting H 2 O for D 2 O, a similar adsorption behavior can be observed for both BiOBr samples (Figure 7B), where the δ(D 2 O) and υ(O−D) peaks shift toward lower wavenumbers, in complete agreement with Hooke's Law. 49 These experiments exactly demonstrate the key role of OVs as far as the formation of Bronsted acid sites is associated. For G-BiOBr, the water molecules are chemically bound to both Lewis acid Bi sites and the OV-mediated Bronsted acid sites (OH B ).…”
Section: Specific Adsorption Of Cyn On Ov Sites Of Biobrmentioning
confidence: 99%