由阳离子 CNC 和 α-Cyclodextrin 形成的包涵复合物共同稳定的全天然 Pickering Emulgels 生物墨水

Esther E. Jaekel, Rubina Ajdary, Nathan Holwell, Sean Mathew, Brian G. Amsden, Kevin J. De France, Orlando J. Rojas, Markus Antonietti, Svitlana Filonenko
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引用次数: 0

摘要

直接墨水书写技术与生物医学领域尤为相关,因为它可以进行定制挤压,还可以创建预先设计好的结构。丰富的天然聚合物是合成聚合物和持久性聚合物的可持续和生物相容性替代品。由于固体含量低、收缩率高以及流变性不合适,纯纳米纤维素悬浮液的印刷非常困难。乳液凝胶(emulgel)替代品因其良好的粘弹性能和创建多相系统的可能性而在该领域备受关注。作者的低取代度无硫阳离子纤维素纳米晶体(CNC)可直接用于皮克林乳液。一种由阳离子 CNC 和 α-环糊精共同稳定的乳胶油墨作为界面包合复合物被引入。所有油墨成分均为天然可生物降解的化合物。生产出的乳胶油墨可实现高保真印刷,干燥时收缩率最小,即使在复杂的悬挂结构中也无需支撑物。低屈服应力(230-270 帕)有利于在配方中加入生物医学应用细胞。由于采用了双相体系,这种乳胶凝胶可根据所需的流变特性进行调整,并同时含有极性和非极性化合物,使其成为生物相容性增材制造的理想平台。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Bioinks from All‐Natural Pickering Emulgels Co‐Stabilized by Cationic CNC and Inclusion Complexes Formed by α‐Cyclodextrin

Bioinks from All‐Natural Pickering Emulgels Co‐Stabilized by Cationic CNC and Inclusion Complexes Formed by α‐Cyclodextrin
Direct ink writing is especially relevant to the biomedical field due to the customizable extrusion and the possibility of creating pre‐designed architectures. Abundant natural polymers are sustainable and biocompatible alternatives to synthetic and persistent polymers. The printing of pure nanocellulose suspensions proves difficult due to low solid loadings, high shrinkage, as well as non‐fitting rheology. Emulsion gels (emulgel) alternatives gain attention in the field owing to their favorable viscoelastic properties and the possibility of creating multiphase systems. The authors’ sulfur‐free cationic cellulose nanocrystals (CNC) of low degree of substitution enable straightforward deployment in Pickering emulsions. An emulgel ink co‐stabilized by cationic CNC and α‐cyclodextrin is introduced as an interfacial inclusion complex. All ink components are natural and biodegradable compounds. The produced emulgel inks allow for high fidelity printing and minimum shrinkage upon drying that relaxes the need for supports, even in complex overhanging structures. A low yield stress (230–270 Pa) facilitates the inclusion of cells for biomedical applications into the formulation. The emulgel can be tuned to the desired rheological properties and be equipped with both polar and apolar compounds due to the biphasic system, making it a promising platform for biocompatible additive manufacturing.
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