【摘 要】
:
Ultrasonic bonding attracts more and more interests owing to its high bonding strength, high bonding efficiency and high biological compatibility in Point-of-Care Testing.However, during its bonding p
【机 构】
:
Key Laboratory for Micro/Nano Technology and System of Liaoning Province, Dalian University of Techn
【出 处】
:
2016年大连国际微纳流体和微流控芯片大会(2016 International Conference of Micro
论文部分内容阅读
Ultrasonic bonding attracts more and more interests owing to its high bonding strength, high bonding efficiency and high biological compatibility in Point-of-Care Testing.However, during its bonding process molten polymer flow of energy director is difficult to control and it is very easy to clog the microchannels.
其他文献
Super-hydrophobic surfaces, which have the properties of high contact angles typically above 150° for water and other aqueous solutions1, have attracted great attention in many academic and engineerin
Room-temperature liquid metal battery (LMB) was prepared based on mecro-fluidics technique.Liquid metal gallium and conductive gel were employed as the negative and positive electrode material, respec
The micro-magnetic fluid friction in micro-electronics mechanical system and nano-electromagnetic system is a key factor affecting the control and measurement accuracy.The imbalance caused by 2-1rotv
Catecholamines including dopamine, norepinephrine, and epinephrine are important neurotransmnitters in the central nervous system.For example, Parkinsons disease is related to the lack of dopamine in
Introduction In this work we introduce bioanalytical applications previously realized on lab-on-chip devices that have been successfully transferred to the field of open mcrofluidics (OM).Open microfl
Microfluidics has a wide application in life sciences (pharmaceutical, personalized medicine and point of care) and other areas such as environmental, analytical and agro-food[1-3].Currently, Polydime
Particles subjected to the inertial lift force will be focused in several equilibrium positions in microchannel.Up to now, most research on inertial focusing of particles have been focused on the micr
The ultimate goal of this study is to design, fabricate and test a new platform for malaria diagnosis using an array of magnets.In order to achieve the goal, we developed and proposed a mathematical m
When the fabrication of the microfluidic devices is concerned, there are basically two common approaches: direct substrate manufacturing (photolithography, etching, laser ablation etc.) and mold-based
Magnetically actuated microrobotics, featured by their non-invasive procedures, has enormous potential in biomedical applications, such as targeted drug delivery systems and in vtro cell manipulation1