Add to ORKGA commercially available liquid-crystal-display–based projector was used as a light source to produce a variety of optical patterns and project them onto a photoconductive material. The optical patterns illuminating the photoconductive material can be used as configurable virtual electrodes, which will induce dielectrophoretic forces on the particles which can thus be manipulated by dynamic optical patterns. The manipulation of silver nanowires was demonstrated by forming a specific pattern of nanowires through illumination of the photoconductive chip with an optical pattern. Polystyrene beads with diameters of 10 and 20 μm were also successfully manipulated. By combining the optically-induced dielectrophoretic force and the hydrodynamic fo...
Three projects are described in this thesis that combine microfabrication techniques with optical mi...
New insights into photoactivated volume generation boost surface morphing in liquid crystal coatings...
ABSTRACT: Remotely manipulating a large number of micro-scopic objects is important to soft-condense...
In this study, we set-up an optically induced dielectrophoresis platform, which can be used to manip...
Micro- and nano-particles can be trapped in locally strong or weak regions of a non-uniform electric...
Abstract: This paper presents basic bubble manipulations, including transporting, splitting, and mer...
We have developed a simple, inexpensive and flexible method to automatically manipulate and assemb...
doi:10.3791/4424 (2013). Optical trapping is a technique for immobilizing and manipulating small obj...
Cataloged from PDF version of article.Optical trapping and manipulation of micrometre-sized particle...
This study presents an electrically actuated tilting micro platform based on liquid dielectrophoresi...
The synthesis of nanostructures has advanced in the last decade to a point where a vast range of ins...
Global efforts have been made in the past two decades to efficiently manipulate and assemble tiny en...
Abstract only availableThe ability to maneuver and position cells on a micro scale on microchips is ...
Cataloged from PDF version of article.Dielectrophoresis (DEP) is the movement of a particle in a non...
The imaging resolution of a conventional optical microscope is limited by diffraction to ~ 200 nm i...
Three projects are described in this thesis that combine microfabrication techniques with optical mi...
New insights into photoactivated volume generation boost surface morphing in liquid crystal coatings...
ABSTRACT: Remotely manipulating a large number of micro-scopic objects is important to soft-condense...
In this study, we set-up an optically induced dielectrophoresis platform, which can be used to manip...
Micro- and nano-particles can be trapped in locally strong or weak regions of a non-uniform electric...
Abstract: This paper presents basic bubble manipulations, including transporting, splitting, and mer...
We have developed a simple, inexpensive and flexible method to automatically manipulate and assemb...
doi:10.3791/4424 (2013). Optical trapping is a technique for immobilizing and manipulating small obj...
Cataloged from PDF version of article.Optical trapping and manipulation of micrometre-sized particle...
This study presents an electrically actuated tilting micro platform based on liquid dielectrophoresi...
The synthesis of nanostructures has advanced in the last decade to a point where a vast range of ins...
Global efforts have been made in the past two decades to efficiently manipulate and assemble tiny en...
Abstract only availableThe ability to maneuver and position cells on a micro scale on microchips is ...
Cataloged from PDF version of article.Dielectrophoresis (DEP) is the movement of a particle in a non...
The imaging resolution of a conventional optical microscope is limited by diffraction to ~ 200 nm i...
Three projects are described in this thesis that combine microfabrication techniques with optical mi...
New insights into photoactivated volume generation boost surface morphing in liquid crystal coatings...
ABSTRACT: Remotely manipulating a large number of micro-scopic objects is important to soft-condense...