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Recombinant Spider Silk Protein as a Tissue Engineering Scaffold Material
关键字:Recombinant spider silk protein; Polyvinyl alcohol (PVA); Scaffold material.
Spider silk protein has great application potential as a high performance biomaterial with great biocompatibility and biodegradability due to its special mechanical properties and protein characteristics.
http://www.polymer.cn/research/dis_info1942 |
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DEGRADABLE POLYMERS TAILOR-MADE FOR TISSUE ENGINEERING
关键字:DEGRADABLE,POLYMERS,TAILOR,MADE,FOR,TISSUE,ENGINEERING,
Learning from the microstructure of natural polymers, it is possible to design and synthesize new specialized polymers with superior functionalities and properties. Biological materials, such as tendon, bone, wood, and many others, are ...
http://www.polymer.cn/research/dis_info1471 |
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DESIGNING INTELLIGENT POLYMERIC SCAFFOLD FOR TISSUE ENGINEERING
关键字:DESIGNING,INTELLIGENT,POLYMERIC,SCAFFOLD,FOR,TISSUE,ENGINEERING,
Our basic working hypothesis is that the assembly and differentiation of cultured cells into functional 3-D tissue constructs may be influenced, directed or even controlled by electrical stimulation applied through bioactive, “intelligent”&nbs...
http://www.polymer.cn/research/dis_info52 |
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Giant Molecules Based on “Nano-Atoms”: A New Platform for Engineering Structures at Nanometer Feature Sizes
In order to create new materials having desired multiple functionalities for advanced technologies, control over their hierarchical structures and orders is vital for obtaining the desired properties. We utilized and functionalized fullerene&nbs...
http://www.polymer.cn/research/sy_info16451 |
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Plasmonic Engineering of Ag7Au Nanoshells for Probing the Isoelectric Point of Proteins and/or Enzymes
关键字: nanoshell , plasmonic . isoelectric point , protein
Noble metal nanostructures have attracted much attention recently and have led to a variety of research fields ranging from ultrasensitive ( bio) sensing, nanomedicine to nanophotonics and solar cells for their unique&nbs...
http://www.polymer.cn/research/sy_info16065 |
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Materials Science and Engineering C 2012, 32, 2589
关键字:poly(ε-caprolactone), porous microspheres, paraffin, microsphere/hydrogel composite, in vitro.
Openporous microspheres could provide large specific surface areas for cell adhesion and sustained cell growth. Introduction of cell-loaded microspheres into hydrogel might provide a cell-affinitive environment to maintain cell viabilities and improve cell growth in hydrogel system. Here, the open porous poly(ε-caprolactone) (PCL) microspheres were fabricated via the combinated phase separ...
http://www.polymer.cn/research/sy_info14692 |
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Giant Molecules Based on “Nano-Atoms”: A New Platform for Engineering Structures at Nanometer Feature Sizes
In order to create new materials having desired multiple functionalities for advanced technologies, control over their hierarchical structures and orders is vital for obtaining the desired properties. We utilized and functionalized fullerene&nbs...
http://www.polymer.cn/research/dis_info18065 |
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Plasmonic Engineering of Ag7Au Nanoshells for Probing the Isoelectric Point of Proteins and/or Enzymes
关键字: nanoshell , plasmonic . isoelectric point , protein
Noble metal nanostructures have attracted much attention recently and have led to a variety of research fields ranging from ultrasensitive ( bio) sensing, nanomedicine to nanophotonics and solar cells for their unique&nbs...
http://www.polymer.cn/research/dis_info17755 |
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Engineering single-layer device performance of red light-emitting electrophosphorescent conjugated polymers via charge trap depth
Electrophosphorescent conjugated polymers (PhCPs) are of great interest in recent years, for the reason that they integrate the low-cost solution processability of the polymers and the high efficiency of the electrophosphorescent transition ...
http://www.polymer.cn/research/dis_info16625 |
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Rational material design, self-assembly, and interface engineering for high-performance and stable polymer solar cells
In this talk, we will discuss the approach of integrating materials design, self-assembly, and interface engineering to improve the performance of organic semiconductors for producing high-performance and stable polymer photovoltaic cells.
http://www.polymer.cn/research/dis_info16567 |
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