Add to ORKGWe describe the exciting advances of using optical trapping in the field of analytical biotechnology. This technique has opened up opportunities to manipulate biological particles at the single cell or even at sub-cellular levels which has allowed an insight into the physical and chemical mechanisms of many biological processes. The ability of this technique to manipulate microparticles and measure pico-Newton forces has found several applications such as understanding the dynamics of biological macromolecules, cell-cell interactions and the micro-rheology of both cells and fluids. Furthermore we may probe and analyse the biological world when combining trapping with analytical techniques such as Raman spectroscopy and imaging
Optical trapping has enabled a multitude of applications focusing, in particular, on non-invasive st...
This thesis investigates the application of a variety of optical techniques for the manipulation of ...
AbstractThe contact-free, non-invasive manipulation provided by optical trapping enables us not only...
We describe the exciting advances of using optical trapping in the field of analytical biotechnology...
In the last decade optical manipulation has evolved from a field of interest for physicists to a ver...
In this chapter, a brief historical account of optical trapping and manipula-tion is given followed ...
The main aim of this project was to develop novel concepts for miniaturization of bioanalytical tech...
Most research on optical manipulation aims towards investigation and development of the system itsel...
The combination of optical trapping with Raman spectroscopy provides a powerful method for the study...
The combination of optical trapping with Raman spectroscopy provides a powerful method for the study...
Optical traps offer the promise of being used as noninvasive micromanipulators for biological object...
Optical traps offer the promise of being used as noninvasive micromanipulators for biological object...
An array of four independent laser traps is combined with a polydimethylsiloxane microfluidic chip t...
Since the time of their introduction, optical tweezers (OTs) have grown to be a powerful tool in the...
Optical trapping has enabled a multitude of applications focusing, in particular, on non-invasive st...
Optical trapping has enabled a multitude of applications focusing, in particular, on non-invasive st...
This thesis investigates the application of a variety of optical techniques for the manipulation of ...
AbstractThe contact-free, non-invasive manipulation provided by optical trapping enables us not only...
We describe the exciting advances of using optical trapping in the field of analytical biotechnology...
In the last decade optical manipulation has evolved from a field of interest for physicists to a ver...
In this chapter, a brief historical account of optical trapping and manipula-tion is given followed ...
The main aim of this project was to develop novel concepts for miniaturization of bioanalytical tech...
Most research on optical manipulation aims towards investigation and development of the system itsel...
The combination of optical trapping with Raman spectroscopy provides a powerful method for the study...
The combination of optical trapping with Raman spectroscopy provides a powerful method for the study...
Optical traps offer the promise of being used as noninvasive micromanipulators for biological object...
Optical traps offer the promise of being used as noninvasive micromanipulators for biological object...
An array of four independent laser traps is combined with a polydimethylsiloxane microfluidic chip t...
Since the time of their introduction, optical tweezers (OTs) have grown to be a powerful tool in the...
Optical trapping has enabled a multitude of applications focusing, in particular, on non-invasive st...
Optical trapping has enabled a multitude of applications focusing, in particular, on non-invasive st...
This thesis investigates the application of a variety of optical techniques for the manipulation of ...
AbstractThe contact-free, non-invasive manipulation provided by optical trapping enables us not only...