New Insights into χ<sup>(3)</sup> Measurements: Comparing Nonresonant Second Harmonic Generation and Resonant Sum Frequency Generation at the Silica/Aqueous Electrolyte Interface

Rehl, Benjamin; Rashwan, Mokhtar; DeWalt-Kerian, Emma L.; Jarisz, Tasha A.; Darlington, Akemi; Hore, Dennis K.; Gibbs, Julianne M.

doi:10.1021/acs.jpcc.9b01300

Cited by 61 publications

(161 citation statements)

References 70 publications

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“…For nonresonant SHG, the water are also expected to dominate the signal although other oscillators such as the silica may also contribute. 45 Moreover, the magnitude ratio of (2) and χ (3) would have to be the same on and off resonance for the signal phase angle to be identical in both experiments. Nevertheless, the change in HD-SHG signal phase is intrinsically related to the change in the diffuse layer thickness, which should play a significant role in the resonant SFG spectra as well.…”

Section: Resultsmentioning

confidence: 99%

Role of Ions on the Surface-Bound Water Structure at the Silica/Water Interface: Identifying the Spectral Signature of Stability

Rehl

Gibbs

2021

J. Phys. Chem. Lett.

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112

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We explore the influence of salt addition on the structure of water interacting closely with a charged silica surface. Isolating these surface effects is challenging, even with surface-specific techniques like sum frequency generation (SFG), because of the presence of aligned water nanometers to microns away from the charged silica. Here we combine zeta potential and SFG intensity measurements with the maximum entropy method and reported heterodyne second harmonic and sum frequency generation results to deconvolute from the total signal intensity the SFG spectral contributions of the waters adjacent to the surface. Deconvolution reveals that at very low ionic strength the surface water structure is similar to that of a neutral silica surface near the point of zero charge with waters oriented in opposite directions. This result suggests the known metastability of silica near the PZC and the stability of silica in low ionic strength solutions may originate from the same source, these oppositely oriented surface-bound waters. Orientation changes are induced upon adding salt, which lead to a decrease in the total amount of aligned water at the surface. File list (2) download file view on ChemRxiv Rehl Manuscript.pdf (1.99 MiB) download file view on ChemRxiv Rehl Supporting Information.pdf (2.26 MiB)

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Section: Resultsmentioning

confidence: 99%

Role of Ions on the Surface-Bound Water Structure at the Silica/Water Interface: Identifying the Spectral Signature of Stability

Rehl

Gibbs

2021

J. Phys. Chem. Lett.

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112

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“…While deprotonation behavior of silanol groups is complicated with having multiple pK a , 30 there is no doubt that silica surface in contact with aqueous solution has negative charge at pH > 2 due to deprotonation of the surface silanol groups (SiOH → SiO -+ H + ). [30][31][32] Because the adsorbed water partially behaves like liquid, it is possible for the hydration layer to accept the proton released from the silanol groups. However, while it is expected that the surface negative charge makes water molecules be "silica-oriented" (hydrogen atoms toward the silica) owing to electrostatic interaction, our spectra indicate that water molecules are mainly air-oriented even at 90%RH.…”

Section: Resultsmentioning

confidence: 99%

A hydrogen-bonding structure in self-formed nanodroplets of water adsorbed on amorphous silica revealed via surface-selective vibrational spectroscopy

Urashima

Uchida

Yui

2020

Phys. Chem. Chem. Phys.

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“…This provides additional evidence that the surfacesolution system significantly changes with the iteration of the TP. Regardless of the vague behavior of the confined liquid signal, optimizing this setup may ultimately allow us to extend our studies to investigate interfacial water melted between ice and solid surface or the so-called quasi-liquid layer (Nagata et al, 2019;Li and Somorjai, 2007;Rosenberg, 2005;Döppenschmidt et al, 1998), which also has industrial applications (e.g., ski sports or frozen-food packaging).…”

Section: Confined Liquid and Ice Signalmentioning

confidence: 99%

Cloud history can change water–ice–surface interactions of oxide mineral aerosols: a case study on silica

et al. 2020

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Abstract. Mineral aerosol particles nucleate ice, and many insights have been obtained on water freezing as a function of mineral surface properties such as charge or morphology. Previous studies have mainly focused on pristine samples despite the fact that aerosol particles age under natural atmospheric conditions. For example, an aerosol-containing cloud droplet can go through freeze–melt or evaporation–condensation cycles that change the surface structure, the ionic strength, and pH. Variations in the surface properties of ice-nucleating particles in the atmosphere have been largely overlooked. Here, we use an environmental cell in conjunction with nonlinear spectroscopy (second-harmonic generation) to study the effect of freeze–melt processes on the aqueous chemistry at silica surfaces at low pH. We found that successive freeze–melt cycles disrupt the dissolution equilibrium, substantially changing the surface properties and giving rise to marked variations in the interfacial water structure and the ice nucleation ability of the surface. The degree of order of water molecules, next to the surface, at any temperature during cooling decreases and then increases again with sample aging. Along the aging process, the water ordering–cooling dependence and ice nucleation ability improve continuously.

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New Insights into χ⁽³⁾ Measurements: Comparing Nonresonant Second Harmonic Generation and Resonant Sum Frequency Generation at the Silica/Aqueous Electrolyte Interface

Cited by 61 publications

References 70 publications

Role of Ions on the Surface-Bound Water Structure at the Silica/Water Interface: Identifying the Spectral Signature of Stability

Role of Ions on the Surface-Bound Water Structure at the Silica/Water Interface: Identifying the Spectral Signature of Stability

A hydrogen-bonding structure in self-formed nanodroplets of water adsorbed on amorphous silica revealed via surface-selective vibrational spectroscopy

Cloud history can change water–ice–surface interactions of oxide mineral aerosols: a case study on silica

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New Insights into χ(3) Measurements: Comparing Nonresonant Second Harmonic Generation and Resonant Sum Frequency Generation at the Silica/Aqueous Electrolyte Interface

Cited by 61 publications

References 70 publications

Role of Ions on the Surface-Bound Water Structure at the Silica/Water Interface: Identifying the Spectral Signature of Stability

Role of Ions on the Surface-Bound Water Structure at the Silica/Water Interface: Identifying the Spectral Signature of Stability

A hydrogen-bonding structure in self-formed nanodroplets of water adsorbed on amorphous silica revealed via surface-selective vibrational spectroscopy

Cloud history can change water–ice–surface interactions of oxide mineral aerosols: a case study on silica

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New Insights into χ⁽³⁾ Measurements: Comparing Nonresonant Second Harmonic Generation and Resonant Sum Frequency Generation at the Silica/Aqueous Electrolyte Interface