Stretchable superlyophobic surfaces for non-loss droplet transfer
文献类型:会议论文
| 作者 | Lei Wang; Zhiwei Wang; Tianzhun Wu; Yu Zhao; Yuji Suzuki |
| 出版日期 | 2015 |
| 会议名称 | MicroTAS 2015 |
| 英文摘要 | A facile, inexpensive and high-precision microfabrication method based on soft replication process was proposed and stretchable superlyophobic ethylene-vinyl acetate (EVA) films were fabricated. Besides the good nongood non good non -wetting performwetting perform wetting performwetting performwetting perform wetting performwetting perform wetting performwetting perform wetting performance ance for almost any liquid, thefor almost any liquid, thefor almost any liquid, thefor almost any liquid, thefor almost any liquid, the for almost any liquid, thefor almost any liquid, the for almost any liquid, thefor almost any liquid, the for almost any liquid, thefor almost any liquid, thefor almost any liquid, thefor almost any liquid, the for almost any liquid, thefor almost any liquid, the for almost any liquid, thefor almost any liquid, thefor almost any liquid, the EVA films possess excellent excellent excellent excellent excellent excellent excellent flexible, transparent, stretchable and adhesiveflexible, transparent, stretchable and adhesiveflexible, transparent, stretchable and adhesive flexible, transparent, stretchable and adhesiveflexible, transparent, stretchable and adhesiveflexible, transparent, stretchable and adhesiveflexible, transparent, stretchable and adhesive flexible, transparent, stretchable and adhesiveflexible, transparent, stretchable and adhesiveflexible, transparent, stretchable and adhesiveflexible, transparent, stretchable and adhesive flexible, transparent, stretchable and adhesiveflexible, transparent, stretchable and adhesive flexible, transparent, stretchable and adhesiveflexible, transparent, stretchable and adhesive flexible, transparent, stretchable and adhesiveflexible, transparent, stretchable and adhesiveflexible, transparent, stretchable and adhesiveflexible, transparent, stretchable and adhesiveflexible, transparent, stretchable and adhesiveflexible, transparent, stretchable and adhesiveflexible, transparent, stretchable and adhesive flexible, transparent, stretchable and adhesive flexible, transparent, stretchable and adhesive flexible, transparent, stretchable and adhesiveflexible, transparent, stretchable and adhesive flexible, transparent, stretchable and adhesiveflexible, transparent, stretchable and adhesiveflexible, transparent, stretchable and adhesive characteristics characteristicscharacteristics characteristicscharacteristics characteristicscharacteristics characteristicscharacteristics . Hence Hence Hence Hence the EVA film he EVA filmhe EVA filmhe EVA film he EVA filmhe EVA filmhe EVA films can be decorated on can be decorated on can be decorated on can be decorated on can be decorated on can be decorated on can be decorated on can be decorated on can be decorated on can be decorated on can be decorated on can be decorated on can be decorated on can be decorated on can be decorated on can be decorated on can be decorated on can be decorated on various complex surfacesvarious complex surfaces various complex surfacesvarious complex surfaces various complex surfaces various complex surfaces various complex surfaces various complex surfacesvarious complex surfacesvarious complex surfacesvarious complex surfacesvarious complex surfaces various complex surfaces, and provide and provide and provide and provide and provide them them them universal universal universal universal universal universal omniphobic omniphobic omniphobic omniphobic performancesperformances performancesperformances performancesperformances performances . NoteNote Note th at adhesion of the EVA superlyophobic film can also be tuned through stretching, we demonstrate we demonstrate we demonstrate we demonstrate we demonstrate we demonstrate we demonstrate the use of stretchable superlyophobic EVA for non-loss water and oil droplet transfer, which may have many potential applications as a surface microfluidics platform. |
| 收录类别 | EI |
| 语种 | 英语 |
| 源URL | [http://ir.siat.ac.cn:8080/handle/172644/7263]  |
| 专题 | 深圳先进技术研究院_医工所 |
| 作者单位 | 2015 |
| 推荐引用方式 GB/T 7714 | Lei Wang,Zhiwei Wang,Tianzhun Wu,et al. Stretchable superlyophobic surfaces for non-loss droplet transfer[C]. 见:MicroTAS 2015. |
入库方式: OAI收割
来源:深圳先进技术研究院
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