Add to ORKGMicro-bubbles have been widely used in microfluidic systems. In this paper, we propose a micro-manipulation technique based on opto-thermally generated bubbles in open chip environment. Micro particles can be captured and moved effectively with a bubble by modulating the position of the laser spot. Analysis, simulations and experiments are involved. This technique doesn't require complicated equipment or chip, and is supposed to be applied for micro assembly, particle separation and transmission
Optical force offers a promise of being applied as a noninvasive manipulation tool for microscopic o...
This paper presents the development of a microfluidic device for particle sorting using optical radi...
Abstract: We demonstrated trapping of 6-µm polystyrene microparticles over a 253-µm range using a tr...
Micro-bubbles have been widely used in microfluidic systems. In this paper, we propose a micro-manip...
A novel micromanipulation technique of multi-objectives based on vibrating bubbles in an open chip e...
A novel micromanipulation technique of multi-objectives based on vibrating bubbles in an open chip e...
A manipulation technique based on optothermally generated surface bubbles is proposed in this paper....
The authors demonstrate an optical manipulation mechanism of gas bubbles for microfluidic applicatio...
We present a unique bubble generation technique in microfluidic chips using continuous-wave laser-in...
Microfluidics and micro-objects are usually driven in the sealed chips. We herein describe a novel t...
As a simple, clean and effective tool, micro bubbles have enabled advances in various lab on a chip ...
Since the pioneering work of Ashkin and coworkers, back in 1970, optical manipulation gained an incr...
Since the pioneering work of Ashkin and coworkers, back in 1970, optical manipulation gained an incr...
The method of optical manipulation of micro particles using optical tweezers was discovered many yea...
Advanced particle manipulation techniques with synergistic effects of low cost, high degrees of cont...
Optical force offers a promise of being applied as a noninvasive manipulation tool for microscopic o...
This paper presents the development of a microfluidic device for particle sorting using optical radi...
Abstract: We demonstrated trapping of 6-µm polystyrene microparticles over a 253-µm range using a tr...
Micro-bubbles have been widely used in microfluidic systems. In this paper, we propose a micro-manip...
A novel micromanipulation technique of multi-objectives based on vibrating bubbles in an open chip e...
A novel micromanipulation technique of multi-objectives based on vibrating bubbles in an open chip e...
A manipulation technique based on optothermally generated surface bubbles is proposed in this paper....
The authors demonstrate an optical manipulation mechanism of gas bubbles for microfluidic applicatio...
We present a unique bubble generation technique in microfluidic chips using continuous-wave laser-in...
Microfluidics and micro-objects are usually driven in the sealed chips. We herein describe a novel t...
As a simple, clean and effective tool, micro bubbles have enabled advances in various lab on a chip ...
Since the pioneering work of Ashkin and coworkers, back in 1970, optical manipulation gained an incr...
Since the pioneering work of Ashkin and coworkers, back in 1970, optical manipulation gained an incr...
The method of optical manipulation of micro particles using optical tweezers was discovered many yea...
Advanced particle manipulation techniques with synergistic effects of low cost, high degrees of cont...
Optical force offers a promise of being applied as a noninvasive manipulation tool for microscopic o...
This paper presents the development of a microfluidic device for particle sorting using optical radi...
Abstract: We demonstrated trapping of 6-µm polystyrene microparticles over a 253-µm range using a tr...