Porous electrodes enhance the capacitance of electrochemical devices by maximizing surface area. However, the relationship between device performance and the porous material structure remains poorly ...
We introduce a new efficient spectral element approach to solve the two-dimensional magnetotelluric forward problem based on Gauss–Lobatto–Legendre polynomials. It combines the high accuracy of the ...
Emerging nanomaterials to enhance electrochemical impedance spectroscopy for biomedical applications
Over the last few decades, electrical impedance-based sensors have been investigated for clinical translation to detect changes in tissue conductivities, including cardiac output and pulmonary ...
Implantable electrical probes have led to fundamental neuroscience advances and treatment of neurological diseases, yet are unable to stably track the long-term evolution of large numbers of ...
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