The properties of the light-driven micromachines were discussed. Micromachines have potential advantages over macromachines in their mobility, information transfer rates and energy efficiency. The properties of the optical tweezers are described which consists of one very tightly focused laser beams. In the optical tweezers arrangement, the particles which could be optically trapped and manipulated are highly transparent, with a higher refractive index than their surrounding medium
In the past two decades, micro/nanomotor is emerging as a critical domain of nanoscale research. Lig...
ii Over the last 30 years, the ability to perform controlled manipulation of microscopic particles u...
Mobile microscale devices and microrobots can be powered by catalytic reactions (chemical micromotor...
We report on a proof of principle demonstration of an optically driven micromachine element. Optical...
Optical tweezers are discussed. Optical tweezers work because transparent particles with a higher in...
Optical tweezers, formed by a highly focused laser beam, have intriguing applications in biology and...
Manipulation with microscopic objects facilitated deeper understanding of the light-matter interact...
The ability to exert optical torques to rotationally manipulate microparticles has developed from an...
We review the basic theory and principles of optically driven micromachines, and present a series of...
There is great interest in the development of micromotors which can convert energy to motion in sub-...
The purpose of this book is to give the engineering student and the practical engineer a systematic ...
Optical forces and torques acting on microscopic objects trapped in focussed laser beams promise fle...
Two-photon photopolymerization of optically curable resins is a powerful tool for fabricating microm...
Mobile microscale devices and microrobots can be powered by catalytic reactions (chemical micromotor...
Worldwide research in microrobotics has exploded in the past two decades, leading to the developmen...
In the past two decades, micro/nanomotor is emerging as a critical domain of nanoscale research. Lig...
ii Over the last 30 years, the ability to perform controlled manipulation of microscopic particles u...
Mobile microscale devices and microrobots can be powered by catalytic reactions (chemical micromotor...
We report on a proof of principle demonstration of an optically driven micromachine element. Optical...
Optical tweezers are discussed. Optical tweezers work because transparent particles with a higher in...
Optical tweezers, formed by a highly focused laser beam, have intriguing applications in biology and...
Manipulation with microscopic objects facilitated deeper understanding of the light-matter interact...
The ability to exert optical torques to rotationally manipulate microparticles has developed from an...
We review the basic theory and principles of optically driven micromachines, and present a series of...
There is great interest in the development of micromotors which can convert energy to motion in sub-...
The purpose of this book is to give the engineering student and the practical engineer a systematic ...
Optical forces and torques acting on microscopic objects trapped in focussed laser beams promise fle...
Two-photon photopolymerization of optically curable resins is a powerful tool for fabricating microm...
Mobile microscale devices and microrobots can be powered by catalytic reactions (chemical micromotor...
Worldwide research in microrobotics has exploded in the past two decades, leading to the developmen...
In the past two decades, micro/nanomotor is emerging as a critical domain of nanoscale research. Lig...
ii Over the last 30 years, the ability to perform controlled manipulation of microscopic particles u...
Mobile microscale devices and microrobots can be powered by catalytic reactions (chemical micromotor...
DOI
Add to ORKG