Advances in three-dimensional rapid prototyping of microfluidic devices for biological applications. - Test2 - elhamkhani - TriplyDB

Advances in three-dimensional rapid prototyping of microfluidic devices for biological applications.

Advances in three-dimensional rapid prototyping of microfluidic devices for biological applications.

http://www.wikidata.org/entity/Q34562641

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3D printed microfluidic circuitry via multijet-based additive manufacturing Future microfluidic and nanofluidic modular platforms for nucleic acid liquid biopsy in precision medicine.3D printed auto-mixing chip enables rapid smartphone diagnosis of anemia Preface to Special Topic: Selected Papers from the Advances in Microfluidics and Nanofluidics 2014 Conference in Honor of Professor Hsueh-Chia Chang's 60th Birthday.Monolithic multilayer microfluidics via sacrificial molding of 3D-printed isomalt.Development of three-dimensional integrated microchannel-electrode system to understand the particles' movement with electrokinetics Fully inkjet-printed microfluidics: a solution to low-cost rapid three-dimensional microfluidics fabrication with numerous electrical and sensing applications.Layerless fabrication with continuous liquid interface production.3D printed microfluidics for biological applications.Polymers for 3D Printing and Customized Additive Manufacturing.Concurrent shear stress and chemical stimulation of mechano-sensitive cells by discontinuous dielectrophoresis.A Role for 3D Printing in Kidney-on-a-Chip Platforms.Embedding objects during 3D printing to add new functionalities.Sandwich-format 3D printed microfluidic mixers: a flexible platform for multi-probe analysis The recent development and applications of fluidic channels by 3D printing.3D printing of liquid metals as fugitive inks for fabrication of 3D microfluidic channels.Microfluidics Based Point-of-Care Diagnostics.3D-Printed Paper Spray Ionization Cartridge with Integrated Desolvation Feature and Ion Optics.A 3D-printed microbial cell culture platform with in situ PEGDA hydrogel barriers for differential substrate delivery.Printed microfluidic filter for heparinized blood.Thermoplastic elastomer with advanced hydrophilization and bonding performances for rapid (30 s) and easy molding of microfluidic devices.Automated 3D-printed unibody immunoarray for chemiluminescence detection of cancer biomarker proteins.3D Bioprinted Functional and Contractile Cardiac Tissue Constructs.Developing Microfluidic Sensing Devices Using 3D Printing.A review of 3D-printed sensors Three Hundred and Sixty Degree Real-Time Monitoring of 3-D Printing Using Computer Analysis of Two Camera Views Physical integrity of 3D printed parts for use as embossing tools

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Advances in three-dimensional rapid prototyping of microfluidic devices for biological applications.

http://www.wikidata.org/entity/Q34562641

description

2014 nî lūn-bûn

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2014 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած

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2014 թվականի սեպտեմբերին հրատարակված գիտական հոդված

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2014年の論文

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2014年論文

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2014年論文

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2014年論文

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2014年論文

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2014年論文

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2014年论文

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Advances in three-dimensional ...... s for biological applications.

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Advances in three-dimensional ...... s for biological applications.

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Advances in three-dimensional ...... s for biological applications.

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Biomicrofluidics

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Advances in three-dimensional ...... s for biological applications.

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A Ben Azouz

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D Brabazon

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H C Chang

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The origins and the future of microfluidics

The intersection of flow cytometry with microfluidics and microfabrication

Advances in microfluidic materials, functions, integration, and applications.

Exploitation of physical and chemical constraints for three-dimensional microtissue construction in microfluidics.

Serial immunoassays in parallel on a microfluidic chip for monitoring hormone secretion from living cells.

In vitro modeling of the microvascular occlusion and thrombosis that occur in hematologic diseases using microfluidic technology

Hype, hope and hubris: the quest for the killer application in microfluidics.

Writing waveguides in glass with a femtosecond laser.

3D microfluidic chips with integrated functional microelements fabricated by a femtosecond laser for studying the gliding mechanism of cyanobacteria.

Reconstituting organ-level lung functions on a chip.

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10.1063/1.4898632

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5

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8

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Mercedes Vázquez

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2014-09-01T00:00:00Z

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