Optofluidics 2015 by Shih-Kang FanOptofluidics 2015 by Shih-Kang Fan

Optofluidics 2015

Guest editorShih-Kang Fan, Da-Jeng Yao, Yi-Chung Tung

Paperback | July 11, 2017

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Optofluidics combines and integrates optics and fluidics to produce versatile systems that are achievable only with difficulty through either field alone. With the spatial and temporal control of the microfluids, the optical properties can be varied, providing highly flexible, tunable, and reconfigurable optical systems. Since the emergence of optofluidics, numerous systems with varied configurations have been developed and applied to imaging, light routing, bio-sensors, energy, and other fields. This Special Issue aims to collect high quality research papers, short communications, and review articles that focus on optofluidics, micro/nano technology, and related multidisciplinary emerging fields. The special issue will also publish selected papers from the 5th Optofluidics 2015 conference (http://www.optofluidics2015.org/), 26–28 July 2015, Taipei, Taiwan. The aim of optofluidics 2015 conference is to provide a forum to promote scientific exchange and to foster closer networks and collaborative ties between leading international optics and micro/nanofluidics researchers across various disciplines. The scope of Optofluidics 2015 is deliberately broad and interdisciplinary, encompassing the latest advances and the most innovative developments in micro/nanoscale science and technology. Topics range from fundamental research to its applications in chemistry, physics, biology, materials and medicine.

Title:Optofluidics 2015Format:PaperbackProduct dimensions:172 pages, 9.61 × 6.69 × 0.47 inShipping dimensions:9.61 × 6.69 × 0.47 inPublished:July 11, 2017Publisher:MDPI AGLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:3038424684

ISBN - 13:9783038424680


Table of Contents

Optofluidic Fabry-Pérot Micro-Cavities Comprising Curved Surfaces for Homogeneous Liquid
Refractometry—Design, Simulation, and Experimental Performance Assessment

Two-Layer Microstructures Fabricated by One-Step Anisotropic Wet Etching of Si in KOH

Fluid Flow Shear Stress Stimulation on a Multiplex Microfluidic Device for Rat Bone Marrow
Stromal Cell Differentiation Enhancement

Liquid Gradient Refractive Index Microlens for Dynamically Adjusting the Beam Focusing

Fiber-Based, Injection-Molded Optofluidic Systems: Improvements in Assembly and Applications

A Comprehensive Review of Optical Stretcher for Cell Mechanical Characterization at
Single-Cell Level

Optofluidic Device Based Microflow Cytometers for Particle/Cell Detection: A Review

Liquid Core ARROW Waveguides: A Promising Photonic Structure for Integrated
Optofluidic Microsensors

Opto-Microfluidic Immunosensors: From Colorimetric to Plasmonic

Constriction Channel Based Single-Cell Mechanical Property Characterization