Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Inertial microfluidics: Recent advances
View through CrossRef
AbstractInertial microfluidics has attracted significant attentions in last decade due to its superior advantages of high throughput, label‐ and external field‐free operation, simplicity, and low cost. A wide variety of channel geometry designs were demonstrated for focusing, concentrating, isolating, or separating of various bioparticles such as blood components, circulating tumor cells, bacteria, and microalgae. In this review, we first briefly introduce the physics of inertial migration and Dean flow for allowing the readers with diverse backgrounds to have a better understanding of the fundamental mechanisms of inertial microfluidics. Then, we present a comprehensive review of the recent advances and applications of inertial microfluidic devices according to different channel geometries ranging from straight channels, curved channels to contraction‐expansion‐array channels. Finally, the challenges and future perspective of inertial microfluidics are discussed. Owing to its superior benefit for particle manipulation, the inertial microfluidics will play a more important role in biology and medicine applications.
Title: Inertial microfluidics: Recent advances
Description:
AbstractInertial microfluidics has attracted significant attentions in last decade due to its superior advantages of high throughput, label‐ and external field‐free operation, simplicity, and low cost.
A wide variety of channel geometry designs were demonstrated for focusing, concentrating, isolating, or separating of various bioparticles such as blood components, circulating tumor cells, bacteria, and microalgae.
In this review, we first briefly introduce the physics of inertial migration and Dean flow for allowing the readers with diverse backgrounds to have a better understanding of the fundamental mechanisms of inertial microfluidics.
Then, we present a comprehensive review of the recent advances and applications of inertial microfluidic devices according to different channel geometries ranging from straight channels, curved channels to contraction‐expansion‐array channels.
Finally, the challenges and future perspective of inertial microfluidics are discussed.
Owing to its superior benefit for particle manipulation, the inertial microfluidics will play a more important role in biology and medicine applications.
Related Results
P-061 In situ microfluidics of fluidic walls: a novel deviceless and cost-effective approach for sperm selection in the same ICSI-dish
P-061 In situ microfluidics of fluidic walls: a novel deviceless and cost-effective approach for sperm selection in the same ICSI-dish
Abstract
Study question
Is our novel deviceless method based on in-situ microfluidics a valuable strategy to select suitable spe...
Low‐cost microfluidics: materials and methods
Low‐cost microfluidics: materials and methods
Microfluidics has been widely used in the biological, chemical and recently in the energy field. In the past decade, microfluidics has experienced tremendous growth in academia; re...
High resolution bacterial separation from blood using elasto-inertial microfluidics
High resolution bacterial separation from blood using elasto-inertial microfluidics
Improved sample preparation has the potential to address a huge unmet
need for fast turnaround sepsis tests that enable early administration
of appropriate antimicrobial therapy. I...
High Throughput Viscoelastic Particle Focusing and Separation in Spiral Microchannels
High Throughput Viscoelastic Particle Focusing and Separation in Spiral Microchannels
Abstract
Passive particle manipulation using inertial and elasto-inertial microfluidics have received substantial interest in recent years and have found various applicatio...
Inertial Forces Acting on a Propeller of Aircraft
Inertial Forces Acting on a Propeller of Aircraft
Background:Aerospace vehicles use propellers with the different design that possess gyroscopic properties. Recent investigations in the area of gyroscope theory have demonstrated t...
A review on inertial microfluidic fabrication methods
A review on inertial microfluidic fabrication methods
In recent decades, there has been significant interest in inertial microfluidics due to its high throughput, ease of fabrication, and no need for external forces. The focusing effi...
P-103 Sperm selection for ICSI by rheotaxis and thermotaxis in In-Situ handmade microfluidics of fluidic walls: preliminary results of a Randomized Controlled Trial
P-103 Sperm selection for ICSI by rheotaxis and thermotaxis in In-Situ handmade microfluidics of fluidic walls: preliminary results of a Randomized Controlled Trial
Abstract
Study question
Does sperm selection by rheotaxis and thermotaxis in In-Situ handmade microfluidics of fluidic walls opt...
P-227 ICSI outcomes after using in-situ microfluidics of fluidic walls versus DGC: a prospective non-inferiority comparative pilot study in sibling oocytes
P-227 ICSI outcomes after using in-situ microfluidics of fluidic walls versus DGC: a prospective non-inferiority comparative pilot study in sibling oocytes
Abstract
Study question
Does the novel strategy in-situ microfluidics (isM) yield comparable ICSI outcomes to the control sperm ...