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ÍƼö½À×µÄһƪеÄJACS£Multichannel Microtubes
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ÍƼö½À×µÄһƪеÄJACS£Multichannel Microtubes ÕâƪÎÄÕÂ×ÜÌåÀ´Ëµ£¬ÆäʵÏë·¨ºÜ¼òµ¥,¶øÇҽṹҲһ°ã.µ«ÊÇÒÔÇ°Ï뵽ȥ×öµÄÈËûÓÐ,ÓÐʱºòÏë·¨²»ÓÃÄÇô¸´Ô ÈÃÎÒÏëÆðÒÔÇ°µÄһƪnature,ÓÃË«ÑõË®ÆðÅݵķ½·¨ÖÆÔì¿×,·¢Á˸öletter.»òÐíÕâЩ¼òµ¥µÄ·½·¨¶¼ÄܸøÎÒÃÇһЩеÄÆôʾ. Bio-mimic Multichannel Microtubes by a Facile Method Yong Zhao, Xinyu Cao, and Lei Jiang* Center of Molecular Sciences, Institute of Chemistry, The Chinese Academy of Sciences, Beijing 100080, P. R. China, Graduate School of Chinese Academy of Sciences, Beijing 100080, P. R. China jianglei@iccas.ac.cn Received November 15, 2006 Abstract: Bio-mimic multichannel microtubes were fabricated by a novel multifluidic compound-jet electrospinning technique. The channel number, diameter, and inner morphology of tubes are all controllable. This method is very simple and promising. The multichannel tubes should be of broad applications, such as for bio-mimic materials, macro/nanofluidic devices, high efficient catalysts, and multicomponent drug delivery. [ Last edited by luo.henry on 2008-4-29 at 09:58 ] |
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