木质素
解聚
化学
分散性
纳米颗粒
深共晶溶剂
有机化学
乙醚
氢键
化学工程
纳米材料
选择性吸附
溴化物
吸附
材料科学
亲核细胞
乙酰丙酸
聚合物
木质纤维素生物量
绿色化学
羟醛缩合
作者
Tianyuan Xiao,Lu Wu,Lingzhi Huang,Xuanjia Yu,Wenchao Jia,Xueru Sheng,Fengshan Zhang,Yanzhu Guo,Pedram Fatehi,Haiqiang Shi
出处
期刊:ACS Nano
[American Chemical Society]
日期:2026-01-15
卷期号:20 (4): 3710-3723
被引量:3
标识
DOI:10.1021/acsnano.5c17745
摘要
The formation of low molecular weight lignin nanoparticles (LMW-LNPs) remains challenging due to their severe self-aggregation effect as well as thermal instability, hindering their scalability and functional applications. This study develops a novel γ-valerolactone (GVL)/deep eutectic solvent (DES) biphasic system incorporating polyol-based hydrogen bond donors (HBDs) to systematically modulate the hydrogen bond acidity of DES, enabling selective depolymerization of industrial lignin in acid lithium bromide hydrate (ALBTH) while effectively suppressing lignin condensation. The optimized system achieved a low lignin molecular weight of 1213 g/mol with minimal condensation, yielding monodisperse low-molecular-weight lignin nanoparticles (LMW-LNPs) with an average diameter of 92.3 nm. Mechanistic investigations using the veratrylglycerol-β-guaiacyl ether (VG) model compound revealed that lignin aryl ether bonds are cleaved via hydrogen transfer from the DES-HBD component, which disrupts the condensation pathway through competitive hydrogen bonding. The LMW-LNPs which maintain structural integrity while achieving depolymerization during the preparation of lignin-based materials exhibit efficient photothermal conversion and dye adsorption properties. They offer a transformative approach for the sustainable production of functional lignin nanomaterials with customized properties, addressing key challenges in the value-added utilization of lignin and promoting advanced applications of lignin-based materials.
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