Exploring Lignin Conformation in Organic and Deep Eutectic Solvents Using Small-Angle Neutron Scattering

有机溶剂 深共晶溶剂 木质素 四氢呋喃 化学 化学工程 回转半径 聚合物 有机化学 溶剂 共晶体系 中子散射 材料科学 中子衍射 小角中子散射 高分子化学 分馏 甲苯 分子间力 萃取(化学) 溶剂效应
作者
Subramee Sarkar,Maggie Kroon,Daniel S. Papp,Nicolás Martín,Charlotta Turner,Karen J. Edler
出处
期刊:Langmuir [American Chemical Society]
标识
DOI:10.1021/acs.langmuir.5c03558
摘要

Lignin, a structurally intricate and heterogeneous phenolic biopolymer, holds considerable promise as a sustainable alternative to petrochemical-derived materials across diverse applications in the energy and materials sectors. However, precise lignin molecular weight and structure determination remains challenging due to its intrinsic tendency to aggregate in solution and the absence of chemically analogous polymer standards for chromatographic techniques. By employing small-angle neutron scattering, this study aims at precise measurement of lignin's polymeric conformation, aggregation behavior, and radius of gyration in organic gel permeation chromatography/NMR solvent, tetrahydrofuran (THF), and in an emerging class of solvent systems known as deep eutectic solvents (DES). These "designer" solvents, formed from tailored hydrogen bond donors and acceptors, are gaining importance for lignin extraction from biomass and analytical characterization. However, their influence on lignin conformation in solutions remains unexplored. Our study reveals that both organosolv and Indulin AT kraft lignin in THF exhibit loosely associated polymeric conformations. Upon D2O addition, Indulin AT undergoes moderate swelling, suggestive of partial dissolution, while organosolv lignin undergoes substantial elongation with directional ordering, resulting in flexible rod-like structures. Lignin oil from a reductive catalytic fractionation process (RCF), in contrast, remains well-dispersed in THF and shows minimal structural change with solvent polarity modulation via D2O addition. Indulin AT and organosolv lignin solvated in the choline chloride/oxalic acid/ethylene glycol DES adopt dense, cylindrical morphologies. These structures show moderate temperature sensitivity and notable resistance to D2O-induced structural perturbation, highlighting strong lignin-DES interactions. Additionally, lignin extracted from cocoa bean shells using a diol-based DES and subsequently dissolved in the same solvent demonstrates a fractal-like morphology, which evolves with D2O content and temperature, revealing a complex solvation landscape. These results offer molecular-level insight into lignin's solvent-dependent structural transitions, enabling more accurate molecular weight estimation and supporting optimization of lignin processing for high-performance biobased formulations and advanced materials.
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