Selected Papers from the 9th Symposium on Micro-Nano Science and Technology on Micromachines

doi:10.3390/books978-3-03921-697-0

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Selected Papers from the 9th Symposium on Micro-Nano Science and Technology on Micromachines

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October 2019

170 pages

ISBN978-3-03921-696-3 (Paperback)
ISBN978-3-03921-697-0 (PDF)

https://doi.org/10.3390/books978-3-03921-697-0

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This book is a reprint of the Special Issue Selected Papers from the 9th Symposium on Micro-Nano Science and Technology on Micromachines that was published in

Chemistry & Materials Science

Engineering

Physical Sciences

Summary

This Special Issue presents selected papers from the 8th Symposium on Micro–Nano Science and Technology on Micromachines, 31 October–2 November, 2017, in Hiroshima, Japan.

We encouraged contributions of significant and original works in order to deeply understand physical, chemical, and biological phenomena at the micro/nano scale and to develop applied technologies. The conference covered the following main topics:

1: Precision machinery lubrication design 2: Material dynamics strength 3: Hydrodynamics 4: Thermal engineering 5: Production processing mechanical materials 6: Robotics mechatronics 7: Medical biotechnology 8: Micro/nano system

The papers that attracted the most interest at the conference, or that provided novel contributions, were selected for publication in Micromachines. These papers were peer-reviewed for validation of the research results, developments and applications.

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Keywords

vibration-induced flow; micro-pillar; numerical analysis; micro-PIV; acoustofluidics; microscale thermophoresis; multiphase flow; microfluidic channels; nano/microparticle separation; micro-electro-mechanical-systems (MEMS) technologies; magneto-impedance sensor; thin-film; high frequency; logarithmic amplifier; nondestructive inspection; microfluidics; biofabrication; adipose tissue; lipolysis; tactile display; thermal tactile display; thermal sensation; thermal conductivity; liquid metal; flexible device; stretchable electronic substrate; kirigami structure; mechanical metamaterials; surface mounting; flexible electronic device; contact resistance; contact pressure; myoblast; skeletal muscle; core-shell hydrogel fiber; cyclic stretch; engineered muscle; laser direct writing; femtosecond laser; glyoxylic acid Cu complex; reduction; Cu micropattern; near-infrared; spectroscopy; surface plasmon resonance; Schottky barrier; grating; Si; connector; artificial blood vessel; medical device; blood coagulation; implant; artificial kidney; biocompatible; 4D printing; 3D printing; stimuli-responsive hydrogel; electrical impedance measurement; three-dimensional cell culture; adipocyte; lipid droplet; 3T3-L1; functional surface; condensation; molecular dynamics; wettability; nanoscale structure; n/a