| 生物印刷电子材料的研究进展 |
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| 引用本文: | 韩璐,危岩,刘成梅,赵玉霞,李路海,魏先福,杨永刚,张小勇,杨斌,陶磊,吉岩. 生物印刷电子材料的研究进展[J]. 中国印刷与包装研究, 2013, 0(3): 1-10 |
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| 作者姓名: | 韩璐 危岩 刘成梅 赵玉霞 李路海 魏先福 杨永刚 张小勇 杨斌 陶磊 吉岩 |
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| 作者单位: | [1]北京印刷学院北京市印刷电子工程技术研究中心,北京102600 [2]清华大学化学系,北京100084 |
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| 基金项目: | 北京印刷学院特殊人才引进配套经费(No.23190113090);国家自然科学基金--具有蛋白反应活性的大环聚合物:合成及对蛋白的修饰(No.21104039);生物粘合剂的设计合成和应用研究(No.21134004);国家自然科学基金重点项目--纳米材料印刷技术的基础研究(No.91123034);15t家973项目--仿生纳米通道能量转换材料体系及器件(No.2011CB935700);国家科技支撑计划--印刷行业产品数控化应用示范(No.2012BAF13805) |
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| 摘 要: | 随着近年来数字建模技术、机电控制技术、信息技术、材料科学与化学等诸多前沿科技的快速发展,三维(3D)打印成了当今最热门的研究方向之一,并被称为可能掀起新一次的工业革命,其应用领域也随着技术的进步而不断扩展。3D打印结合生物工程技术即生物印刷技术,在生物医药领域有广泛的应用前景。刚起步的生物印刷电子材料技术是将碳纳米管、石墨烯、导电高分子或水凝胶等具有电活性的材料,用印刷方法构建生物相容并有电刺激响应的2D和3D细胞培养和组织工程智能支架。适于进行3D生物印刷的导电材料及支架材料是研究工作的核心内容。本文主要简述了近年来以导电聚合物和水凝胶为主的可用于3D打印的生物印刷电子材料的研究进展,并对其在3D细胞培养和组织工程中的可能应用进行了探讨。
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| 关 键 词: | 3D打印 生物印刷电子材料 导电聚合物 水凝胶 |
Development Progress of Electroactive Materials for Potential 2D and 3D Bio-printing |
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| HAN Lu,WEI Yen,LIU Cheng-mei,ZHAO Yu-xia,LI Lu-hai,WEI Xian-fu,YANG Yong-gang,ZHANG Xiao-yong,YANG Bin,TAO Lei,JI Yan. Development Progress of Electroactive Materials for Potential 2D and 3D Bio-printing[J]. China Printing and Packaging Study, 2013, 0(3): 1-10 |
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| Authors: | HAN Lu WEI Yen LIU Cheng-mei ZHAO Yu-xia LI Lu-hai WEI Xian-fu YANG Yong-gang ZHANG Xiao-yong YANG Bin TAO Lei JI Yan |
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| Affiliation: | 1. Beijing Printed Electronics Engineering Technology Research Center, Beijing Institute of Graphic Communication, Beijing 102600, China; 2. Department of Chemistry, Tsinghua University, Beijing 100084, China) |
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| Abstract: | With the development of advanced technology, three - dimensional (3D) printing is currently one of the hottest technologies in the world. Bio -printing combines 3D printing and tissue engineering technologies has tremendous potential for many biomedical applications. Bio - electronic printing as described here is to print electroactive materials, containing conductive polymers, graphenes, carbon nanotubes, etc. , to construct 2D or 3D intelligent scaffolds that could modulate cell growth and differentiation under electrical stimulation. One of the key work of bio - electronic printing is the preparation of electroactive materials that are bioapplicable and printable. This review emphasized recent advances in the development of conductive polymers and hydrogels and their potential applications in bio - electronic printing. |
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| Keywords: | Three - dimensional printing Electroactive material for bio - printing Conductive polymer Hydrogel |
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