期刊
CHEMSUSCHEM
卷 14, 期 21, 页码 4718-4730出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/cssc.202101356
关键词
kraft lignin; birch lignin; grass lignin; lignin nanoparticles; green synthesis
资金
- European Research Council [863808]
- Academy of Finland [315768, 330617]
- Academy of Finland (AKA) [315768, 330617, 315768] Funding Source: Academy of Finland (AKA)
- European Research Council (ERC) [863808] Funding Source: European Research Council (ERC)
The study found that the acetone/water (3:1) method is the most effective approach for preparing uniform, small, and spherical LNPs from three different technical lignins. These LNPs show improved stability at different ionic strengths and pH ranges, making them suitable for various applications in pharmaceutical and food sciences.
The production of lignin nanoparticles (LNPs) has emerged as a way to overcome the highly variable and complex molecular structure of lignin. It can offer morphological control of the lignin polymer, allowing the formation of stable LNP dispersions in aqueous media, while increasing the potential of lignin for high-value applications. However, the polydispersity and morphology of LNPs varies depending on the lignin grade and preparation method, and a systematic comparison using different technical lignins is lacking. In this study, it was attempted to find a green fabrication method with a distinct solvent fractionation of lignin to prepare LNPs using three different technical lignins as starting polymers: BLN birch lignin (hardwood, BB), alkali Protobind 1000 (grass, PB), and kraft LignoBoost (softwood, LB). For that, three anti-solvent precipitation approaches to prepare LNPs were systematically compared: 70 % aqueous ethanol, acetone/water (3 : 1) and NaOH as the lignin solvent, and water/aqueous HCl as the anti-solvent. Among all these methods, the acetone/water (3 : 1) approach allowed production of homogeneous and monodisperse LNPs with a negative surface charge and also spherical and smooth surfaces. Overall, the results revealed that the acetone/water (3 : 1) method was the most effective approach tested to obtain homogenous, small, and spherical LNPs from the three technical lignins. These LNPs exhibited an improved stability at different ionic strengths and a wider pH range compared to the other preparation methods, which can greatly increase their application in many fields, such as pharmaceutical and food sciences.
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