In order to efficiently select a specific electrospinning technology to construct multifunctional nanomaterials according to their actual demands, herein, we utilize the same spinning dopes to construct fluorescent-conductive-magnetic trifunctional array. This is a case study to compare the advantages and disadvantages of four electrospinning technologies including conjugate electrospinning (CJE), parallel electrospinning (PE), coaxial electrospinning (CAE) and traditional electrospinning (TE) technologies, and further systematically investigate the differences in structure and properties of the electrospun products. The results indicate that CAE technology is more suitable to prepare multifunctional materials with fluorescent property, and PE technology is more beneficial for the fabrication of Janus-structured multifunctional materials with conductive anisotropy. Janus-structured materials can be constructed by PE and CJE technologies, but CJE technology is a better choice to ...

中文翻译：

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比较不同静电纺丝技术生产具有多功能特性的阵列：荧光，导电和磁性

为了有效地根据其实际需求选择一种特定的静电纺丝技术来构建多功能纳米材料，在本文中，我们利用相同的纺丝原液来构建荧光导电磁性三功能阵列。本案例研究旨在比较四种电纺技术的优缺点，包括共轭电纺（CJE），平行电纺（PE），同轴电纺（CAE）和传统电纺（TE）技术，并进一步系统地研究结构和结构上的差异电纺产品的性能。结果表明，CAE技术更适合制备具有荧光特性的多功能材料，PE技术更有利于制造具有导电各向异性的Janus结构多功能材料。可以使用PE和CJE技术来构造Janus结构的材料，但是CJE技术是...的更好选择。