Surface Microfluidic Patterning and Transporting Organic Small Molecules
Wang H, Wang W, Li L, Zhu J, Wang W, Zhang D, Xie Z, Fuchs H, Lei Y, Chi LF
Research article (journal) | Peer reviewedAbstract
A microfluidic method is developed to pattern organic small molecules directly in air. When heated to above its melting point, a powder melts into liquid drops which propagate along the pattern area. The method can further be applied to transport other dye molecules, to create multicolored patterns in one step. The fluorescence microscopy image shows rhodamine B (red), fluorescein (green), and calcein blue (blue) doped N-ethyl-d-glucamine on 100-μm Au lines.
Details about the publication
Journal: Small
Volume: 10
Issue: 13
Page range: 2549-2552
Status: Published
Release year: 2014
Language in which the publication is written: English
Keywords: surface patterning; dye molecules; microfluidics; N-ethyl-d-glucamine
Authors from the University of Münster
| Chi, Lifeng | Interface Physics Group (Prof. Fuchs) |
| Fuchs, Harald | Interface Physics Group (Prof. Fuchs) |
| Lei, Yong | Institute of Materials Physics |
| Li, Liqiang | Institute of Physics (PI) |
| Wang, Wenchong | Interface Physics Group (Prof. Fuchs) |