Add to ORKGMechanical assembly of systems and structures on the micro-scale can be inefficient as particles of sub-millimeter dimensions are difficult to manipulate. Cutting edge manufacturing methods implement self-assembly as an approach to ordering micro and nano-sized parts into a desired arrangement. This thesis studies a technique utilizing surface tension as a method of actuating microparts on a liquid-liquid interface via lateral capillary interactions. Preliminary experimentation is conducted to investigate the feasibility of developing a new method for self-alignment of microparts by observing the influence of interfacial geometry on the movement of silicon tiles along a hexadecanewater interface. Different surface geometries are created by ...
Assembly at sub-millimeter dimensions is a challenging process that is often not economically feasib...
We present a model and experimental results on tilt angle of microparts in capillary-driven self-ass...
Abstract—Because of the low dimensional power of its force scaling law, surface tension is appropria...
Mechanical assembly of systems and structures on the micro-scale can be inefficient as particles of ...
Self-assembly of components using liquid surface tension is an attractive alternative to traditional...
Surface tension-driven self-alignment is a passive and highly-accurate positioning mechanism that ca...
Surface tension-driven self-alignment is a passive and highly-accurate positioning mechanism that ca...
Abstract: Fluidic self-assembly using capillary forces has shown great potential for the manufactur...
[[abstract]]The purpose of this research is to develop a self-alignment mechanism using surface tens...
Soft micro devices and stretchable electronics have attracted great interest for their potential app...
Soft micro devices and stretchable electronics have attracted great interest for their potential app...
The long lasting trend of miniaturization leads to increasing functionality but also to continuously...
Alignment of microchips with receptors is an important process step in the construction of integrate...
This thesis presents an improved understanding of how liquid surface tension controls component alig...
[[abstract]]Conventional pick-and-place technology platform in handling microscale component assembl...
Assembly at sub-millimeter dimensions is a challenging process that is often not economically feasib...
We present a model and experimental results on tilt angle of microparts in capillary-driven self-ass...
Abstract—Because of the low dimensional power of its force scaling law, surface tension is appropria...
Mechanical assembly of systems and structures on the micro-scale can be inefficient as particles of ...
Self-assembly of components using liquid surface tension is an attractive alternative to traditional...
Surface tension-driven self-alignment is a passive and highly-accurate positioning mechanism that ca...
Surface tension-driven self-alignment is a passive and highly-accurate positioning mechanism that ca...
Abstract: Fluidic self-assembly using capillary forces has shown great potential for the manufactur...
[[abstract]]The purpose of this research is to develop a self-alignment mechanism using surface tens...
Soft micro devices and stretchable electronics have attracted great interest for their potential app...
Soft micro devices and stretchable electronics have attracted great interest for their potential app...
The long lasting trend of miniaturization leads to increasing functionality but also to continuously...
Alignment of microchips with receptors is an important process step in the construction of integrate...
This thesis presents an improved understanding of how liquid surface tension controls component alig...
[[abstract]]Conventional pick-and-place technology platform in handling microscale component assembl...
Assembly at sub-millimeter dimensions is a challenging process that is often not economically feasib...
We present a model and experimental results on tilt angle of microparts in capillary-driven self-ass...
Abstract—Because of the low dimensional power of its force scaling law, surface tension is appropria...