由量子点接头增强的基因工程胶原蛋白肽组装独立膜的仿生制备
Biomimetic Fabrication of Genetically-Engineered Collagen Peptide-Assembled Freestanding Films Reinforced by Quantum Dot Joints.
作者信息
Wei Zengyan, Maeda Yoshiaki, Matsui Hiroshi
机构信息
Department of Chemistry and Biochemistry, City University of New York-Hunter College, 695 Park Avenue, New York, NY 10065, USA.
出版信息
Soft Matter. 2012 Jan 1;8(26):6871-6875. doi: 10.1039/c2sm25693b. Epub 2012 May 31.
Abstract
Genetically-engineered collagen peptides were assembled into freestanding films when QDs are co-assembled as joints between collagen domains. These peptide based films show excellent mechanical properties with Young's modulus of ~20 GPa, much larger than most of multi-composite polymer films and previously reported freestanding nanoparticle-assembled sheets, and it is even close to the bone tissue in nature. These films show little permanent deformation under small indentation while the mechanical hysteresis becomes remarkable when the load approaches near and beyond the rupture point, which is also characteristic to the bone tissue.
摘要
当量子点作为胶原结构域之间的连接物共同组装时,基因工程胶原蛋白肽被组装成独立的薄膜。这些基于肽的薄膜表现出优异的机械性能,杨氏模量约为20 GPa,远大于大多数多复合聚合物薄膜和先前报道的独立纳米颗粒组装片材,甚至接近天然骨组织。在小压痕下,这些薄膜几乎没有永久变形,而当载荷接近并超过破裂点时,机械滞后变得明显,这也是骨组织的特征。
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