...:加快创面愈合是临床医学研究的一个重要领域。高保湿性和抗菌性的功能医用敷料作为一种临时皮肤替代物在治疗过程中发挥着重要作用。细菌纤维素(Bacterial Cellulose, BC)是一种由微生物合成的高纯度纤维素,是自然界中最精细的纳米材料。
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1-2人5李政不同代谢物对纳米细菌纤维素孔径结构的调节机制细菌纤维素(bacterial cellulose)是由微生物经发酵一步合成的多孔性网状纳米级生物高分子聚合物。
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Bacterial cellulose BC 细菌纤维素
the Bacterial cellulose 细菌纤维素
bacterial cellulose yogurt 细菌纤维素酸奶
spherical bacterial cellulose 球形细菌纤维素
regenerated bacterial cellulose 再生细菌纤维素
amidoximated bacterial cellulose 偕胺肟细菌纤维素
Diethylenetriamine bacterial cellulose 二乙烯三胺细菌纤维素
Bacterial cellulose ion-exchanger 离子交换细菌纤维素
In this paper, the static culture medium optimization, the cleaner product, the structure analysis, as well as the application in paper making of bacterial cellulose (BC) was studied.
本文主要对细菌纤维素的静态发酵培养基优化、清洁生产、结构分析及其在造纸中的应用进行了研究。
参考来源 - 细菌纤维素培养基优化及应用研究Watermelon juice is used as substrate to produce bacterial cellulose for the first time, the result is as good as we thought.
首次以西瓜汁为培养基合成细菌纤维素,取得了较为理想的效果。
参考来源 - 细菌纤维素的制备及结构与性能研究·2,447,543篇论文数据,部分数据来源于NoteExpress
以上来源于: WordNet
The dynamical model of static fermentation of Bacterial Cellulose was studied and established.
对静态发酵生产细菌纤维素的动力学模型进行了研究。
Helen Fink and her colleagues have modified the bacterial cellulose so that these cells adhere better.
海伦·芬克及其同事已对细菌纤维素进行修复,以便于这些细胞粘附得更好。
Bacterial cellulose, as a new biological material with unique functions, is attracting the interest of the scientists.
细菌纤维素作为一种新型的生物材料,由于其独特的功能性正受到科学界的广泛关注。
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