Add to ORKGThe motion of bioparticles in a microfluidic environment can be actively controlled using several tuneable mechanisms, including hydrodynamic, electrophoresis, dielectrophoresis, magnetophoresis, acoustophoresis, thermophoresis and optical forces. These mechanisms are applied to obtain desired bioparticle motions which are important in facilitating different biological processes. In this work, we review the fundamentals, features and applications of these tuneable mechanisms for the manipulation of bioparticles such as proteins, nucleic acids, viruses, bacteria, stem cells, cancer and tumor cells, blood cells and multicellular organisms in microfluidic systems. We focus on applications that can realize biomedical devices potentially suitabl...
Microfluidics, the manipulation of fluid samples on the order of nanoliters and picoliters, is rapid...
Harnessing the ability to precisely and reproducibly actuate fluids and manipulate bioparticles such...
Microfluidic techniques for cell manipulation have been constantly developed and integrated into sma...
Microfluidics and lab-on-a-chip technology offers unique advantages for the next generation devices ...
Cataloged from PDF version of article.Microfluidics and lab-on-a-chip technology offers unique advan...
Novel particle manipulation techniques are developed to separate, isolate, and control a wide range ...
The application of a.c. electric fields to control and manipulate isolated particles in suspension u...
Microfluidics is the science and technology of manipulating fluids at small scales ranging from micr...
As an ideal method to manipulate biological particles, the dielectrophoresis (DEP) technique has bee...
Cell-based approaches in medicine, biotechnology, and pharmaceutical research offer unique prospects...
A universal goal of technological development is the enrichment of human life. The fast developments...
The development of lab-on-a-chip (LOC) devices over the past decade has attracted growing interest. ...
Abstract—Electrokinetics is the study of the motion of bulk fluids or selected particles embedded in...
Microfluidics, the manipulation of fluid samples on the order of nanoliters and picoliters, is rapid...
MEMS microfluidic systems are becoming increasingly popular as a way to integrate sample preparation...
Microfluidics, the manipulation of fluid samples on the order of nanoliters and picoliters, is rapid...
Harnessing the ability to precisely and reproducibly actuate fluids and manipulate bioparticles such...
Microfluidic techniques for cell manipulation have been constantly developed and integrated into sma...
Microfluidics and lab-on-a-chip technology offers unique advantages for the next generation devices ...
Cataloged from PDF version of article.Microfluidics and lab-on-a-chip technology offers unique advan...
Novel particle manipulation techniques are developed to separate, isolate, and control a wide range ...
The application of a.c. electric fields to control and manipulate isolated particles in suspension u...
Microfluidics is the science and technology of manipulating fluids at small scales ranging from micr...
As an ideal method to manipulate biological particles, the dielectrophoresis (DEP) technique has bee...
Cell-based approaches in medicine, biotechnology, and pharmaceutical research offer unique prospects...
A universal goal of technological development is the enrichment of human life. The fast developments...
The development of lab-on-a-chip (LOC) devices over the past decade has attracted growing interest. ...
Abstract—Electrokinetics is the study of the motion of bulk fluids or selected particles embedded in...
Microfluidics, the manipulation of fluid samples on the order of nanoliters and picoliters, is rapid...
MEMS microfluidic systems are becoming increasingly popular as a way to integrate sample preparation...
Microfluidics, the manipulation of fluid samples on the order of nanoliters and picoliters, is rapid...
Harnessing the ability to precisely and reproducibly actuate fluids and manipulate bioparticles such...
Microfluidic techniques for cell manipulation have been constantly developed and integrated into sma...