Encyclopedia of Microfluidics and Nanofluidics
Herausgeber: Li, Dongqing
Encyclopedia of Microfluidics and Nanofluidics
Herausgeber: Li, Dongqing
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Covering all aspects of transport phenomena on the nano- and micro-scale, the 800 entries include 300 essay entries. The Encyclopedia gives an up to date look at the fundamentals of the field as well as many experiments and applications in growing areas such as energy devices and bioengineering applications.
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Covering all aspects of transport phenomena on the nano- and micro-scale, the 800 entries include 300 essay entries. The Encyclopedia gives an up to date look at the fundamentals of the field as well as many experiments and applications in growing areas such as energy devices and bioengineering applications.
Produktdetails
- Produktdetails
- Verlag: Springer New York / Springer US, New York, N.Y.
- 2nd ed. 2015
- Seitenzahl: 3740
- Erscheinungstermin: 6. Dezember 2014
- Englisch
- Abmessung: 260mm x 183mm x 227mm
- Gewicht: 7894g
- ISBN-13: 9781461454885
- ISBN-10: 1461454883
- Artikelnr.: 37203954
- Verlag: Springer New York / Springer US, New York, N.Y.
- 2nd ed. 2015
- Seitenzahl: 3740
- Erscheinungstermin: 6. Dezember 2014
- Englisch
- Abmessung: 260mm x 183mm x 227mm
- Gewicht: 7894g
- ISBN-13: 9781461454885
- ISBN-10: 1461454883
- Artikelnr.: 37203954
Dr.Dongqing Li is a Professor at the University of Waterloo. He is also Tier 1 Canada Research Chair in Microfluidics and Nanofluidics.
A selection of entries in this reference include: Electrical double layers.
Electro osmosis.
Electrophoresis.
Dielectrophoresis.
Quantum dots.
Electrowetting.
Theoretical models and numerical simulations (e.g., continuum and MDS).
Pressure
driven single phase liquid flows.
Pressure
driven single phase gas flows.
Pressure
driven two phase flows.
Electroosmotic flow.
Electrophoretic motion of particles and cells.
Joule heating in electrokinetic flow.
Mixing.
Electrokinetic focusing.
Electrokinetic dispensing.
Molecular dynamic simulations.
Other non
continuous approaches.
Electrowetting and droplets.
Nanofluidics.
Flow in channels with 3D elements.
Electrokinetic transport with biochemical reactions.
Photolithography.
Silicon micromachining.
Laser based micromachining.
LIGA.
Soft photolithography.
Nanochannel fabrication.
Molecular tagging method.
Micro PIV.
On
chip waveguide.
Other micro flow visualization techniques.
Fluorescent thermometry.
Electrical current monitoring methods for evaluating EOF velocity.
Methods for measuring zeta potential.
Methods for surface modification (e.g., self assembled monolayer, polymer coating).
Microfluidic pumping.
Microfluidic mixing.
Microfluidic dispensing.
Microfluidic bioreactors.
Lab
on
chip devices for DNA analysis (e.g., PCR, hybridization, sequencing).
Lab
on
chip devices for separation based detection (e.g., electrophoresis).
Lab
on
chip devices for cell analysis (e.g., flow cytometry, dielectrophoresis).
Lab
on
chip devices based on electro
wetting.
Lab
on
chip devices for protein analysis.
Lab
on
chip devices for immunoassay.
Lab
on
chip devices for chemical analysis.
Lab
on
chip devices for bio
defense applications.
Micro
fuel cells.
Micro heat pipes.
Opto
microfluidics and opto
nanofluidics.
Electro osmosis.
Electrophoresis.
Dielectrophoresis.
Quantum dots.
Electrowetting.
Theoretical models and numerical simulations (e.g., continuum and MDS).
Pressure
driven single phase liquid flows.
Pressure
driven single phase gas flows.
Pressure
driven two phase flows.
Electroosmotic flow.
Electrophoretic motion of particles and cells.
Joule heating in electrokinetic flow.
Mixing.
Electrokinetic focusing.
Electrokinetic dispensing.
Molecular dynamic simulations.
Other non
continuous approaches.
Electrowetting and droplets.
Nanofluidics.
Flow in channels with 3D elements.
Electrokinetic transport with biochemical reactions.
Photolithography.
Silicon micromachining.
Laser based micromachining.
LIGA.
Soft photolithography.
Nanochannel fabrication.
Molecular tagging method.
Micro PIV.
On
chip waveguide.
Other micro flow visualization techniques.
Fluorescent thermometry.
Electrical current monitoring methods for evaluating EOF velocity.
Methods for measuring zeta potential.
Methods for surface modification (e.g., self assembled monolayer, polymer coating).
Microfluidic pumping.
Microfluidic mixing.
Microfluidic dispensing.
Microfluidic bioreactors.
Lab
on
chip devices for DNA analysis (e.g., PCR, hybridization, sequencing).
Lab
on
chip devices for separation based detection (e.g., electrophoresis).
Lab
on
chip devices for cell analysis (e.g., flow cytometry, dielectrophoresis).
Lab
on
chip devices based on electro
wetting.
Lab
on
chip devices for protein analysis.
Lab
on
chip devices for immunoassay.
Lab
on
chip devices for chemical analysis.
Lab
on
chip devices for bio
defense applications.
Micro
fuel cells.
Micro heat pipes.
Opto
microfluidics and opto
nanofluidics.
A selection of entries in this reference include: Electrical double layers.
Electro osmosis.
Electrophoresis.
Dielectrophoresis.
Quantum dots.
Electrowetting.
Theoretical models and numerical simulations (e.g., continuum and MDS).
Pressure
driven single phase liquid flows.
Pressure
driven single phase gas flows.
Pressure
driven two phase flows.
Electroosmotic flow.
Electrophoretic motion of particles and cells.
Joule heating in electrokinetic flow.
Mixing.
Electrokinetic focusing.
Electrokinetic dispensing.
Molecular dynamic simulations.
Other non
continuous approaches.
Electrowetting and droplets.
Nanofluidics.
Flow in channels with 3D elements.
Electrokinetic transport with biochemical reactions.
Photolithography.
Silicon micromachining.
Laser based micromachining.
LIGA.
Soft photolithography.
Nanochannel fabrication.
Molecular tagging method.
Micro PIV.
On
chip waveguide.
Other micro flow visualization techniques.
Fluorescent thermometry.
Electrical current monitoring methods for evaluating EOF velocity.
Methods for measuring zeta potential.
Methods for surface modification (e.g., self assembled monolayer, polymer coating).
Microfluidic pumping.
Microfluidic mixing.
Microfluidic dispensing.
Microfluidic bioreactors.
Lab
on
chip devices for DNA analysis (e.g., PCR, hybridization, sequencing).
Lab
on
chip devices for separation based detection (e.g., electrophoresis).
Lab
on
chip devices for cell analysis (e.g., flow cytometry, dielectrophoresis).
Lab
on
chip devices based on electro
wetting.
Lab
on
chip devices for protein analysis.
Lab
on
chip devices for immunoassay.
Lab
on
chip devices for chemical analysis.
Lab
on
chip devices for bio
defense applications.
Micro
fuel cells.
Micro heat pipes.
Opto
microfluidics and opto
nanofluidics.
Electro osmosis.
Electrophoresis.
Dielectrophoresis.
Quantum dots.
Electrowetting.
Theoretical models and numerical simulations (e.g., continuum and MDS).
Pressure
driven single phase liquid flows.
Pressure
driven single phase gas flows.
Pressure
driven two phase flows.
Electroosmotic flow.
Electrophoretic motion of particles and cells.
Joule heating in electrokinetic flow.
Mixing.
Electrokinetic focusing.
Electrokinetic dispensing.
Molecular dynamic simulations.
Other non
continuous approaches.
Electrowetting and droplets.
Nanofluidics.
Flow in channels with 3D elements.
Electrokinetic transport with biochemical reactions.
Photolithography.
Silicon micromachining.
Laser based micromachining.
LIGA.
Soft photolithography.
Nanochannel fabrication.
Molecular tagging method.
Micro PIV.
On
chip waveguide.
Other micro flow visualization techniques.
Fluorescent thermometry.
Electrical current monitoring methods for evaluating EOF velocity.
Methods for measuring zeta potential.
Methods for surface modification (e.g., self assembled monolayer, polymer coating).
Microfluidic pumping.
Microfluidic mixing.
Microfluidic dispensing.
Microfluidic bioreactors.
Lab
on
chip devices for DNA analysis (e.g., PCR, hybridization, sequencing).
Lab
on
chip devices for separation based detection (e.g., electrophoresis).
Lab
on
chip devices for cell analysis (e.g., flow cytometry, dielectrophoresis).
Lab
on
chip devices based on electro
wetting.
Lab
on
chip devices for protein analysis.
Lab
on
chip devices for immunoassay.
Lab
on
chip devices for chemical analysis.
Lab
on
chip devices for bio
defense applications.
Micro
fuel cells.
Micro heat pipes.
Opto
microfluidics and opto
nanofluidics.