Exploring the Origins of Spectral Signatures of Strong Hydrogen Bonding in Protonated Water Clusters

Huchmala, Rachel M.; McCoy, Anne B.

doi:10.1021/acs.jpca.1c10036

Cited by 7 publications

(7 citation statements)

References 29 publications

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“…Akin to the previous experiments, populations ( P ) were derived through the ratio of observed intensity ( I exp ) and the calculated absorption cross sections ( I calc ), The anharmonic absorption cross sections were calculated from Colbert–Miller discrete variable representation (CM-DVR) wave functions and an interpolated dipole surface, − which is a highly accurate method for obtaining anharmonic vibrations and intensities. Numerous hydrated structures of NIC and NOR were calculated at the ωB97X-D/aug-cc-pVDZ density functional theory (DFT) level.…”

mentioning

confidence: 99%

Structure of Gas Phase Monohydrated Nicotine: Implications for Nicotine’s Native Structure in the Acetylcholine Binding Protein

et al. 2022

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We report a joint experimental−theoretical study of the never reported before structure and infrared spectra of gas phase monohydrated nicotine (NIC) and nornicotine (NOR) and use them to assign their protonation sites. NIC's biological activity is strongly affected by its protonation site, namely, the pyrrolidine (Pyrro-NICH + , anticipated active form) and pyridine (Pyri-NICH + ) forms; however, these have yet to be directly experimentally determined in either the nicotinic acetylcholine receptor (nAChR, no water present) or the acetylcholine-binding protein (AChBP, a single water molecule is present) but can only be inferred to be Pyrro-NICH + from the intermolecular distance to the neighboring residues (i.e., tryptophan). Our temperaturecontrolled double ion trap infrared spectroscopic experiments assisted by the collisional stripping method and high-level theoretical calculations yield the protonation ratio of Pyri:Pyrro = 8:2 at 240 K for the gas phase NICH + •••(H 2 O) complex, which resembles the molecular cluster present in the AChBP. Therefore, a single water molecule in the gas phase enhances this ratio in NICH + relative to the 3:2 for the nonhydrated gas phase NICH + in a trend that contrasts with the almost exclusive presence of Pyrro-NICH + in aqueous solution. In contrast, the Pyri-NORH + protomer is exclusively observed, a fact that may correlate with its weaker biological activity.

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mentioning

confidence: 99%

Structure of Gas Phase Monohydrated Nicotine: Implications for Nicotine’s Native Structure in the Acetylcholine Binding Protein

et al. 2022

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“…This determines the occurrence of strong “long-range” vibronic couplings involving hydrogen bonds adjacent within the chains of (COOH) 2 cycles. The coplanar structure enables the contact of cyclized functional groups, which is confirmed by research in this field, in which was found for a wide range of model systems ,,,,− ,− ,− the field of dependencies between the electronic structure and the intensity of cooperative interactions. In order to interpret the infrared polarized spectra of single crystals of systems, which indicate the occurrence of such interactions, the Davydov coupling seems to be the appropriate mechanism leading to a comprehensive explanation of the effects of the temperature on the IR spectra of systems forming cyclic dimers.…”

Section: Interpretation and Physical Discussionmentioning

confidence: 57%

Elucidating the Infrared Spectral Properties of Succinic Molecular Acid Crystals: Illustration of the Structure and the Hydrogen Bond Energies of the Crystal and Its Deuterated Analogs

et al. 2022

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Herein, the infrared spectroscopic properties of molecular succinic acid crystals (SA) and their four isotopic analogs [C 2 H 4 (COOH) 2 , h 6 -SA; C 2 H 4 (COOD) 2 , d 2 -SA; C 2 D 4 (COOH) 2 , d 4 -SA; C 2 D 4 (COOD) 2 , d 6 -SA] are reported. The correlation between the structure of succinic acid molecules and their corresponding hydrogen bond energies is elucidated. The effects related to the isotopic dilution as well as the changes in the spectrum recording temperature on the fine structures of the v O−H and v O−D bands are interpreted. The infrared spectral anomalies detected in the spectra of isotopically neat succinic nanocrystal acids are confirmed by theoretical calculations using density functional theory (DFT). According to previous spectroscopic studies of succinic acid and those carried out for α,ω-dicarboxylic acids, a decent agreement between the experimental results and the theoretical DFT simulations is obtained. Moreover, the spectra of single crystals of the h 6 and d 4 succinic acid variants prove that the vibrational coupling mechanism between the (COOH) 2 cycles is rigorously convergent to that detected in the spectra of aromatic carboxylic acids, suggesting thereby that the promotion of symmetryforbidden high stretching IR transitions plays a crucial role. Furthermore, the obtained experimental results reveal that the succinic acid shows a spectral behavior significantly different from that characteristic of hydrogen associations of other acids of homologous series, such as the glutaric, adipic, malonic, and pimelic acid crystals. The results obtained herein shed light on the way to explore the revealed structure of isotopic derivatives of succinic acid crystals and may prove to be useful results for understanding the nature of unconventional interactions as well as the macroscopic energy effects directing the development of hydrogen associations.

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“…The neat sand showed the characteristic peaks of 1082, 1175, and 1632 cm À1 that corresponds to Si O Si, Si O, and H O H bending modes, respectively. [51][52][53] The peaks detected for the sand-PAM exactly matched that of neat-PAM. Meanwhile, the OH group of the neat-PAM was detected at 3382 cm À1 while the same shifted to 3385 cm À1 for sand-PAM, indicating that the sand particles are completely coated with PAM matrices.…”

Section: Cross-linking Of Pam and Surface Interaction To Sandmentioning

confidence: 53%

Mechanically robust and thermally enhanced sand‐polyacrylamide‐2D nanofiller composite hydrogels for water shutoff applications

Krishnan,

Almohsin,

Alsharaeh

2023

J of Applied Polymer Sci

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Herein, we report a facile preparation method for mechanically robust and thermally enhanced sand‐polyacrylamide (PAM)‐2D‐nanofillers composite hydrogels and their application in water shutoff. To prepare the sample, 4 wt% of aqueous PAM solution is mixed with organic cross‐linkers of hydroquinone (HQ) and hexamethylenetetramine (HMT) in a 1:1 weight ratio and aqueous potassium chloride (KCl) solution and with a specific amount of 2D‐nanofillers such as commercial graphene (CG) nanosheets or boron nitride nanoparticles (BN NPs). A specific amount of the above solution is added to sand, well mixed, and subsequently cured at 150°C for 8 h. The prepared composite hydrogels were characterized by Fourier‐transform infrared spectroscopy (FT‐IR) for chemical composition and X‐ray diffraction (XRD) for successful hydrogel coating onto the sand particles. Thermal stabilities of the samples have been evaluated by differential scanning calorimetry (DSC). Mechanical properties (storage modulus [G′]; loss modulus [G″]; gel strength (G′/G″); and damping factor [G″/G′]) of the samples were determined using dynamic mechanical analyses. The thermal stability of the samples has reached as high as 193.4°C, while the gel strength is found to be a maximum of 16.2. The water swelling ratio for the composite hydrogel has reached a maximum of 1100% within 1 h.

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Exploring the Origins of Spectral Signatures of Strong Hydrogen Bonding in Protonated Water Clusters

Cited by 7 publications

References 29 publications

Structure of Gas Phase Monohydrated Nicotine: Implications for Nicotine’s Native Structure in the Acetylcholine Binding Protein

Structure of Gas Phase Monohydrated Nicotine: Implications for Nicotine’s Native Structure in the Acetylcholine Binding Protein

Elucidating the Infrared Spectral Properties of Succinic Molecular Acid Crystals: Illustration of the Structure and the Hydrogen Bond Energies of the Crystal and Its Deuterated Analogs

Mechanically robust and thermally enhanced sand‐polyacrylamide‐2D nanofiller composite hydrogels for water shutoff applications

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