Researchers from Swinburne University of Technology and the University of Science and Technology of China have developed a low-cost technique that holds promise for a range of scientific and technological applications.
They have combined laser printing and capillary force to build complex, self-assembling microstructures using a technique called laser printing capillary-assisted self-assembly (LPCS).
This type of self-assembly is seen in nature, such as in gecko feet and the salvinia leaf, and scientists have been trying to mimic these multi-functional structures for decades.
The researchers have found they can control capillary force -- the tendency of a liquid to rise in narrow tubes or be drawn into small openings -- by changing the surface structure of a material.
"Using laser printing techniques we can control the size, geometry, elasticity and distance between tiny pillars -- narrower than the width of a human hair -- to get the self-assembly that we want," lead author of a study published in the Proceedings of the National Academy of Science , Swinburne's Dr Yanlei Hu, said.
Ultrafast laser printing produces an array of vertical nanorods of varying heights. After the laser process, the material is washed in a development solvent using a method similar to traditional darkroom film processing. The gravity-governed capillary force difference creates pillars of unequal physical properties along different axes.
"A possible application of these structures is in on-chip micro-object trap-release systems which are in demand in chemical analysis and biomedical devices," co-author Dr Ben Cumming said.
The researchers demonstrated the ability of the LPCS structures to selectively capture and release micro-particles.
Read more at Science Daily
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