Bond Length Alternation and Internal Dynamics in Model Aromatic Substituents of Lignin

Hernandez-Castillo, Alicia O.; Calabrese, Camilla; Fritz, Sean; Uriarte, Iciar; Cocinero, Emilio J.; Zwier, Timothy S.

doi:10.1002/cphc.202100808

Cited by 3 publications

(4 citation statements)

References 44 publications

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“…The p-isomers also possess a very small barrier, because the molecules are electronically and structurally symmetric. This trend also occurs in the cresol derivatives carvacrol (6), thymol (7) [147], and creosol (8) [148], as well as in 3-methylphenylacetylene (13) [153]. Note that the torsional barrier of the methyl group in the methoxy moiety of methylanisole and those of the two methyl groups in the isopropyl moiety of carvacrol and thymol are high.…”

Section: Cresol and Methylanisole Derivativesmentioning

confidence: 73%

“…Although some chemical properties such as vapor pressure, color, smell, and acidity are similar, the effects of methyl internal rotation, which often depend on the steric and electronic surroundings, are completely different for these isomers, as shown in Figure 5. 1) The prototype toluene [137][138][139][140][141][142], (2) o-cresol [143], (3) m-cresol [144], (4) p-cresol [145], (5) p-thiocresol [146], (6) anti-carvacrol (two conformers, A and B) [147], (7) syn-thymol [147], (8) creosol [148], (9) o-methyl anisole [127], (10) m-methyl anisole [149,150], (11) p-methylanisole [151], ( 12) mephenesin (two conformers, A and B) [152], (13) 3-methylphenylacetylene [153].…”

Section: Cresol and Methylanisole Derivativesmentioning

confidence: 99%

“…Barriers to methyl internal rotation in toluene and cresol derivatives (in cm −1 ). (1) The prototype toluene[137][138][139][140][141][142], (2) o-cresol[143], (3) m-cresol[144], (4) p-cresol[145], (5) p-thiocresol[146], (6) anti-carvacrol (two conformers, A and B)[147], (7) syn-thymol[147], (8) creosol[148], (9) o-methyl anisole[127], (10) m-methyl anisole[149,150],(11) p-methylanisole[151], (12) mephenesin (two conformers, A and B)[152], (13) 3-methylphenylacetylene[153].…”

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confidence: 99%

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The LAM of the Rings: Large Amplitude Motions in Aromatic Molecules Studied by Microwave Spectroscopy

2022

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Large amplitude motions (LAMs) form a fundamental phenomenon that demands the development of specific theoretical and Hamiltonian models. In recent years, along with the strong progress in instrumental techniques on high-resolution microwave spectroscopy and computational capacity in quantum chemistry, studies on LAMs have become very diverse. Larger and more complex molecular systems have been taken under investigation, ranging from series of heteroaromatic molecules from five- and six-membered rings to polycyclic-aromatic-hydrocarbon derivatives. Such systems are ideally suited to create families of molecules in which the positions and the number of LAMs can be varied, while the heteroatoms often provide a sufficient dipole moment to the systems to warrant the observation of their rotational spectra. This review will summarize three types of LAMs: internal rotation, inversion tunneling, and ring puckering, which are frequently observed in aromatic five-membered rings such as furan, thiophene, pyrrole, thiazole, and oxazole derivatives, in aromatic six-membered rings such as benzene, pyridine, and pyrimidine derivatives, and larger combined rings such as naphthalene, indole, and indan derivatives. For each molecular class, we will present the representatives and summarize the recent insights on the molecular structure and internal dynamics and how they help to advance the field of quantum mechanics.

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Section: Cresol and Methylanisole Derivativesmentioning

confidence: 73%

Section: Cresol and Methylanisole Derivativesmentioning

confidence: 99%

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confidence: 99%

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The LAM of the Rings: Large Amplitude Motions in Aromatic Molecules Studied by Microwave Spectroscopy

2022

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“…It occurred within the plane of the ring and locked the guaiacyl moiety into a planar heavy-atom geometry. The literature provided many cases of this pattern with similar geometrical parameters with exceptions appearing only when other protic hydrogen acceptor solvents such as DMSO competed for hydrogen bonding. − To prevent such strong intermolecular H-bonds through interaction with DMSO-d 6 from influencing the NMR results, the poor H-bond-accepting solvent CDCl 3 in this work was therefore used.…”

Section: Results and Discussionmentioning

confidence: 99%

Stereo-Recognition of Hydrogen Bond and Its Implications for Lignin Biomimetic Synthesis

Zhu

Zhang

et al. 2022

Biomacromolecules

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The hydrogen bond (H-bond) is essential to stabilizing the three-dimensional biological structure such as protein, cellulose, and lignin, which are integral parts of animal and plant cells; thus, stereo-recognition of the H-bond is extremely attractive. Herein, a methodology combining the variable-temperature 1H NMR technique with the density functional theory was established to recognize the underlying H-bonding patterns in lignin diastereomers. This method successfully classified the intramolecular and intermolecular H-bonds with slope values varying between 50.2–201.5 and 221.9–655.4, respectively, from the natural logarithm of the hydroxyl proton chemical shift versus the inverse of the temperature plot. Moreover, this slope was found to be correlated with the interaction distance between the H-bond donor and acceptor. Finally, it was proposed that the stereo-preferential formation of the β-O-4 structure (erythro vs threo form) during lignin biomimetic synthesis was probably influenced by their intramolecular H-bonding patterns, thus making it easier to reach thermodynamic equilibrium.

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Valorizing spent mushroom substrate into syngas by the thermo-chemical process

Lee,

Choi,

Park

et al. 2024

Bioresource Technology

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Bond Length Alternation and Internal Dynamics in Model Aromatic Substituents of Lignin

Cited by 3 publications

References 44 publications

The LAM of the Rings: Large Amplitude Motions in Aromatic Molecules Studied by Microwave Spectroscopy

The LAM of the Rings: Large Amplitude Motions in Aromatic Molecules Studied by Microwave Spectroscopy

Stereo-Recognition of Hydrogen Bond and Its Implications for Lignin Biomimetic Synthesis

Valorizing spent mushroom substrate into syngas by the thermo-chemical process

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