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Princeton Dockets # 12-2746, 12-2747, & 12-2748
Researchers at Princeton University have developed novel
modifications to microfluidic microscope (MFM) devices. These new features will allow full
three-dimensional (3D) profiling of objects, while retaining the simplicity and
high throughput of traditional MFMs.
Microfluidic Microscopy...
Published: 2/27/2024
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Inventor(s): Jason Fleischer, Nicolas Pegard
Keywords(s): life science research tools, medical device, Opto-Electronics/ELE ENG
Category(s): Medical Devices/Diagnostics, Mechanical/Electrical Engineering
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Princeton Docket # 12-2798
Tomography
is a method for three-dimensional imaging by sectioning, through the use of
penetrating waves. Modern variations of
tomography involve gathering projection data from multiple directions and using
a computer to numerically reconstruct the final image. Tomography has been widely applied for
medical imaging,...
Published: 3/30/2022
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Inventor(s): Jason Fleischer, Nicolas Pegard
Keywords(s): Imaging, medical device, Opto-Electronics/ELE ENG
Category(s): Mechanical/Electrical Engineering
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Princeton Docket # 11-2701
Optical manipulation of light has become an increasingly popular strategy to enhance light harvesting efficiencies in opto-electronic devices. Despite recent advances in nano-scale patterning techniques that have enabled the creation of discrete metallic building blocks or continuous metallic films having nano-hole arrays,...
Published: 3/30/2022
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Inventor(s): Yueh-Lin (Lynn) Loo, Jongbok Kim, Pilnam Kim, Howard Stone, Nicolas Pegard, Jason Fleischer
Keywords(s): Opto-Electronics/ELE ENG, solar cell
Category(s): Mechanical/Electrical Engineering, Materials
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