Add to ORKGThis thesis describes the development, characterization, and application of the microfluidics device integration of electrostatic corral trapping systems. Optical traps or laser tweezers , which are capable of trapping microscopic dielectric particles through the production of steep electromagnetic field gradients, have been significant in the development of the field of biophysics and the manipulation of microscopic objects. This method of trapping unfortunately has a fundamental size limitation, making it incapable of trapping molecular-scale objects. We have developed a new tool for the trapping and manipulation of nanoscale objects including single molecules, the corral trap, which has distinct characteristics that set it apart from ot...
Manipulation and trapping of single molecules in solution is a useful tool for studies of biological...
Research in the field of Micro/nanofluidics has been extensively carried out for the last few years....
The authors describe electroactive microwells which exploit highly localized electrokinetic effects ...
This thesis describes the development, characterization, and application of the microfluidics device...
Progress in micro- and nanotechnologies depends on our capability of manipulating and interacting wi...
A variety of micro-tweezers techniques, such as optical tweezers, magnetic tweezers, and dielectroph...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
An array of four independent laser traps is combined with a polydimethylsiloxane microfluidic chip t...
The main aim of this project was to develop novel concepts for miniaturization of bioanalytical tech...
Understanding interactions between charged metal surfaces and electrolyte solutions is of vital inte...
Abstract: Optoelectronic tweezers is a new tool for parallel optical manipulation of colloids and ce...
This is the final report of a three-year, Laboratory Directed Research and Development (LDRD) projec...
Recently, optical tweezers have been used for isolating and manipulating single cells in PDMS microw...
Contact-free trapping of nano-objects in solution is of broad interest for many applications, such a...
This thesis presents the development of a parallel plate lab-on-a-chip (LOC) device for manipulating...
Manipulation and trapping of single molecules in solution is a useful tool for studies of biological...
Research in the field of Micro/nanofluidics has been extensively carried out for the last few years....
The authors describe electroactive microwells which exploit highly localized electrokinetic effects ...
This thesis describes the development, characterization, and application of the microfluidics device...
Progress in micro- and nanotechnologies depends on our capability of manipulating and interacting wi...
A variety of micro-tweezers techniques, such as optical tweezers, magnetic tweezers, and dielectroph...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
An array of four independent laser traps is combined with a polydimethylsiloxane microfluidic chip t...
The main aim of this project was to develop novel concepts for miniaturization of bioanalytical tech...
Understanding interactions between charged metal surfaces and electrolyte solutions is of vital inte...
Abstract: Optoelectronic tweezers is a new tool for parallel optical manipulation of colloids and ce...
This is the final report of a three-year, Laboratory Directed Research and Development (LDRD) projec...
Recently, optical tweezers have been used for isolating and manipulating single cells in PDMS microw...
Contact-free trapping of nano-objects in solution is of broad interest for many applications, such a...
This thesis presents the development of a parallel plate lab-on-a-chip (LOC) device for manipulating...
Manipulation and trapping of single molecules in solution is a useful tool for studies of biological...
Research in the field of Micro/nanofluidics has been extensively carried out for the last few years....
The authors describe electroactive microwells which exploit highly localized electrokinetic effects ...