Molecular Dynamics Study of Thermophysical and Mechanical Properties in Hydrated Lignin with Compositions Close to Softwood

Bregado, Jurgen Lange; Souto, Felipe; Secchi, Argimiro Resende; Tavares, Frederico W.; Calado, Verônica

doi:10.1021/acssuschemeng.2c05264

Cited by 6 publications

(10 citation statements)

References 100 publications

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“…Previous studies on lignin structures have revealed the presence of short distance ordering in the range of 4.0–4.2 and 5.3–6.1 Å considered to be related to sandwiched and T-shaped π–π stacking interactions, respectively. , Six predominant distances/sizes ( D 1 , D 2 , D 3 , D 4 , D II order3 , and D II order4 ) were observed in lignin samples by WAXS, as shown in Table and Figures S19–S24. Based on the distance within these repeating features, D 2 and D 3 can be attributed to T-shaped and sandwich π–π stacking (combined parallel displaced and cofacial parallel stacked) interactions between the abundant lignin aromatic rings. ,− This should however be considered a simplification due to the highly complex three-dimensional lignin network structures. These π–π stacking interactions between aromatic rings normally play an important role in the stability of the systems and their properties. ,, It is however not clear how these internal stacking interactions scale when being imbedded into a larger structural ordering.…”

Section: Resultsmentioning

confidence: 99%

Effect of Molecular Organization on the Properties of Fractionated Lignin-Based Thiol–Ene Thermoset Materials

et al. 2023

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In this study, the combination of sequential solvent fractionation of technical Kraft lignin was followed by allylation of most OH functionalities to give highly functional thermoset resins. All lignin fractions were highly functionalized on the phenolic (≥95%) and carboxylic acid OH (≥85%) and to a significant extent on the aliphatic OH moieties (between 43 and 75%). The resins were subsequently cross-linked using thiol–ene chemistry. The high amount of allyl functionalities resulted in a high cross-link density. Dynamic mechanical analysis measurements showed that the thioether content, directly related to the allyl content, strongly affects the performance of these thermosets with a glass transition temperature (T g) between 81 and 95 °C and with a storage modulus between 1.9 and 3.8 GPa for all thermosets. The lignin fractions and lignin-based thermosets’ morphology, at the nanoscale, was studied by wide-angle X-ray scattering measurements. Two π–π stacking interactions were observed: sandwich (≈4.1–4.7 Å) and T-shaped (≈5.5–7.2 Å). The introduction of allyl functionalities weakens the T-shaped π–π stacking interactions. A new signal corresponding to a distance of ≈3.5 Å was observed in lignin-based thermosets, which was attributed to a thioether organized structure. At the same time, a lignin superstructure was observed with a distance/size corresponding to 7.9–17.5 Å in all samples.

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Section: Resultsmentioning

confidence: 99%

Effect of Molecular Organization on the Properties of Fractionated Lignin-Based Thiol–Ene Thermoset Materials

et al. 2023

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“…It is important to stress that the aim of this work is not to derive new structures for WBDCs starting from randomly different configurations but rather to corroborate that there may be structures whose geometries are like those estimated with MD simulations 26 trapped in a nearby local minimum of energy landscapes estimated with DFT calculations.…”

Section: Computational Methodologymentioning

confidence: 95%

“…2 by removing -OCH 3 groups). 26 Thus, to obtain the methoxylated complexes SÁ Á ÁG and SÁ Á ÁS, one and two -OCH 3 groups were introduced into G units, respectively. This study was performed for simple lignin complexes having a high content of -OCH 3 in their units because the S-unit shows less crosslinking in the native lignin's network.…”

Section: Optimization Of Geometriesmentioning

confidence: 99%

“…2. 25–27 In fact, the existence of WBDCs: G⋯S and S⋯S in native lignin is a consequence of the association of monolignols and its radicals in aqueous solution during their (bio)polymerization 2,28–31 rendering lignols in folded and extended-chain structures mediated by hydrogen bonding interactions between close HO4–O4 and HO7–O7 hydroxyl groups (Fig. 2a), 8 which participate in “coiled” structures found in the xylem tissue of tracheary elements of wood.…”

Section: Introductionmentioning

confidence: 99%

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A density functional theory study on interactions in water-bridged dimeric complexes of lignin

Bregado,

Secchi,

Tavares

2024

Phys. Chem. Chem. Phys.

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“…Lignin Builder is another robust tool that can be used to construct lignin structures and study interaction with other components (Figure b) . Many authors have used this software to model lignin structures and understand their properties and behavior. − …”

Section: Atomistic Representations and Chemistry Of Lignocellulosic M...mentioning

confidence: 99%

Atomistic Modeling of Lignocellulosic and Carbonaceous Fuels and Their Pyrolysis Reactions: A Review

Sierra-Jimenez,

Mathews,

Chejne

et al. 2023

Energy Fuels

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This paper explores the utility of large-scale atomistic models to examine the complex relationship between biochar behavior, its structural characteristics, and the reactions involved in its formation. Pyrolysis kinetic models primarily focus on explaining the formation of small volatiles and aromatic structures without fully understanding the carbonization process. To gain a deeper understanding of carbonization and move beyond unrealistic structures resembling levoglucosan, it is necessary to examine the transformation of the lignocellulosic macromolecules into carbonaceous structures from a molecular-level perspective. This includes exploring structural transitions and large-scale reactive dynamics. Furthermore, incorporating atomistic representations derived from experimental data and theoretical modeling can help overcome the limitations of relying solely on empirical and density functional theory approaches due to the need for scale to capture biochar properties. Additionally, by considering structural transitions on a large scale, we can effectively capture the complexity of biomass pyrolysis, the interaction of free radicals, and the pore size distribution, all essential for comprehending biochar reactivity and utility.

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Molecular Dynamics Study of Thermophysical and Mechanical Properties in Hydrated Lignin with Compositions Close to Softwood

Cited by 6 publications

References 100 publications

Effect of Molecular Organization on the Properties of Fractionated Lignin-Based Thiol–Ene Thermoset Materials

Effect of Molecular Organization on the Properties of Fractionated Lignin-Based Thiol–Ene Thermoset Materials

A density functional theory study on interactions in water-bridged dimeric complexes of lignin

Atomistic Modeling of Lignocellulosic and Carbonaceous Fuels and Their Pyrolysis Reactions: A Review

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