AKD-Modification of bacterial cellulose aerogels in supercritical CO_2

Axel Russler; Marcel Wieland; Markus Bacher; Ute Henniges; Peter Miethe; Falk Liebner; Antje Potthast; Thomas Rosenau

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AKD-Modification of bacterial cellulose aerogels in supercritical CO_2

机译：在超临界CO_2中对细菌纤维素气凝胶进行AKD修饰

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Different approaches towards hydrophobic modification of bacterial cellulose aerogels with the alkyl ketene dimer (AKD) reagent are presented. If AKD modification was performed in supercritical CO_2, an unexpectedly high degree of loading was observed. About 15 % of the AKD was bound covalently to the cellulose matrix, while the other part consisted of re-extractable AKD-carbonate oligomers, which are novel chemical structures described for the first time. These oligomers contain up to six AKD and CO_2 moieties linked by enolcarbonate structures. The humidity uptake from environments with different relative humidity by samples equipped with up to 30 % AKD is strongly reduced, as expected due to the hydrophobization effect. Samples above 30 % AKD, and especially at very high loading between 100 and 250 %, showed the peculiar effect of increased humidity uptake which even exceeded the value of unmodified bacterial cellulose aerogels.

机译：提出了使用烷基烯酮二聚体（AKD）试剂对细菌纤维素气凝胶进行疏水改性的不同方法。如果在超临界CO_2中进行AKD修饰，则会观察到出乎意料的高负载。约15％的AKD与纤维素基质共价结合，而另一部分则由可再萃取的AKD-碳酸酯低聚物组成，这是首次描述的新型化学结构。这些低聚物包含多达六个通过烯醇碳酸盐结构连接的AKD和CO_2部分。正如预期的那样，由于疏水作用的影响，配备了高达30％AKD的样品从具有不同相对湿度的环境中吸收的湿度大大降低了。高于30％AKD的样品，尤其是在100％至250％的极高负载下，显示出增加的吸湿效果，甚至超过了未经修饰的细菌纤维素气凝胶的价值。

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《Cellulose 》 |2012年第4期| 共13页
作者
Axel Russler; Marcel Wieland; Markus Bacher; Ute Henniges; Peter Miethe; Falk Liebner; Antje Potthast; Thomas Rosenau;
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正文语种 eng
中图分类有机化学 ;
关键词
Cellulose aerogel; Bacterial cellulose; Surface modification; Hydrophobization; Supercritical carbon dioxide; Alkyl ketene dimer (AKD); AKD-CO_2-oligomers; Humidity uptake;

机译：纤维素气凝胶;细菌纤维素;表面改性;疏水化;超临界二氧化碳;烷基烯酮二聚体（AKD）;AKD-CO_2-低聚物;吸湿性;

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1. AKD-Modification of bacterial cellulose aerogels in supercritical CO_2 [J] . Axel Russler, Marcel Wieland, Markus Bacher, Cellulose . 2012 ,第4期

机译：在超临界CO_2中对细菌纤维素气凝胶进行AKD修饰
2. Flexible aerogels based on an interpenetrating network of bacterial cellulose and silica by a non-supercritical drying process [J] . Huazheng Sai, Li Xing, Junhui Xiang Journal of Materials Chemistry, A. Materials for energy and sustainability . 2013 ,第27期

机译：基于细菌纤维素和二氧化硅互穿网络的柔性气凝胶，采用非超临界干燥工艺
3. Loading of Bacterial Cellulose Aerogels with Bioactive Compounds by Antisolvent Precipitation with Supercritical Carbon Dioxide [J] . Emmerich Haimer, Martin Wendland, Kerstin Schlufter, Macromolecular Symposia . 2010 ,第2期

机译：通过超临界二氧化碳反溶剂沉淀法向细菌纤维素气凝胶中加载生物活性化合物
4. Aerogels from Bacterial Cellulose: A new Dimension in preparing shaped Cellulose Aerogels [C] . Liebner F., Haimer E., Wendland M., European Meeting on Supercritical Fluids . 2010

机译：来自细菌纤维素的气凝胶：制备成形纤维素Aerogels的新尺寸
5. Bacterial Cellulose: A Model for Deconstructing Cellulose Native Structure. [D] . Graham, William Darnell. 2013

机译：细菌纤维素：解构纤维素天然结构的模型。
6. Production of Bacterial Cellulose Aerogels With Improved Physico-Mechanical Properties and Antibacterial Effect [O] . Viktor V. Revin, Natalia B. Nazarova, Ekaterina E. Tsareva, 2020

机译：生产细菌纤维素气凝胶具有改善的物理 - 力学性能和抗菌作用
7. Production of Bacterial Cellulose Aerogels With Improved Physico-Mechanical Properties and Antibacterial Effect [O] . Viktor V. Revin, Natalia B. Nazarova, Ekaterina E. Tsareva, 2020

机译：生产细菌纤维素气凝胶，具有改善的物理 - 力学性能和抗菌作用

AKD-Modification of bacterial cellulose aerogels in supercritical CO_2

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