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Skip to Search Results- 3Lab on a chip
- 2Polymers
- 2Sample preparation
- 13D structure prediction
- 1Bead
- 1Biomedical image analysis
- 1Backhouse, Chris (Electrical and Computer Engineering)
- 1Backhouse, Chris (Electrical and Computer Engineering, University of Waterloo)
- 1Backhouse, Christopher J. (Electrical and Computer Engineering)
- 1Elliott, Duncan (Electrical and Computer Engineering, University of Alberta)
- 1Sameoto, Dan (Mechanical Engineering, University of Alberta)
- 1Van, Vien (Electrical and Computer Engineering)
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Fall 2009
The analysis of wide-angle cellular light scattering patterns is a challenging problem. Small changes to the organization, orientation, shape, and optical properties of scatterers and scattering populations can significantly alter their complex two-dimensional scattering signatures. Because of...
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Hybrid Polymer Plasmonic Devices for Enhanced All-Plasmonic Switching Based on Photothermal Nonlinearity
DownloadFall 2015
Nanoplasmonic devices have received much attention in recent years due to their ability to confine light below the diffraction limit, thereby providing a potential route to the creation of nanometer-scale integrated photonic devices. However, with the strong confinement of light come large...
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Fall 2015
Caverhill-Godkewitsch, Saul A.
The infrastructure necessary to support diagnostic and pathogen-detection processes does not exist in some regions of the world that need it most. Access to fast, inexpensive and portable diagnostic infrastructure could be a solution to this problem. Next generation lab-on-chip (LOC) systems that...
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Fall 2011
Olanrewaju, Ayokunle Oluwafemi
Ongoing work in the laboratory of Professor Chris Backhouse is aimed at developing a portable and inexpensive lab on a chip instrument. A system capable of molecular biology protocols including sample preparation (SP), polymerase chain reaction (PCR), and melting curve analysis (MCA) would meet...