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Spatially Resolved Fourier Transform Impedance Spectroscopy and Applications to Optoelectronics
Reference #: 01502
The University of South Carolina is offering licensing opportunities for Spatially Resolved Fourier Transform Impedance Spectroscopy and Applications to Optoelectronics
Background:
The key problems that this innovation overcomes are the tradeoffs in time domain techniques used to characterize light-responsive materials as well...
Published: 12/5/2024
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Updated: 5/25/2021
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Inventor(s): Mathew Kelley, Andrew Greytak, M.V.S. Chandrashekhar
Keywords(s): Fourier transform, frequency response, impedance mapping, impedance spectroscopy, intensity modulated photocurrent spectroscopy, interface capacitance, photocurrent transient, time domain, transfer function, transfer length
Category(s): Engineering and Physical Sciences, Chemistry and Biochemistry
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