27 August 2014 Novel 3D plasmonic nano-electrodes for cellular investigations and neural interfaces
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Abstract
We propose the development of an innovative plasmonic-electronic multifunctional platform, capable at the same time of performing chemical analysis and electronic recordings from a cellular interface. The system, based on 3D hollow metallic nanotubes, integrated on customized multi-electrode-arrays, allows the study of neuronal signaling over different lengths, spanning from the molecular, to the cellular, to the network scale. Here we show that the same structures are efficient electric field enhancers, despite the continuous metal layer at the base, which connects them to the electric components of the integrated circuits. The methodology we propose, due to its simplicity and high throughput, has the potential for further improvements both in the field of plasmonics, and in the integration on large areas of commercial active electronic devices.
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Mario Malerba, Mario Malerba, Michele Dipalo, Michele Dipalo, Gabriele C. Messina, Gabriele C. Messina, Hayder Amin, Hayder Amin, Rosanna La Rocca, Rosanna La Rocca, Victoria Shalabaeva, Victoria Shalabaeva, Alessandro Simi, Alessandro Simi, Alessandro Maccione, Alessandro Maccione, Luca Berdondini, Luca Berdondini, Francesco De Angelis, Francesco De Angelis, } "Novel 3D plasmonic nano-electrodes for cellular investigations and neural interfaces", Proc. SPIE 9166, Biosensing and Nanomedicine VII, 91660N (27 August 2014); doi: 10.1117/12.2066274; https://doi.org/10.1117/12.2066274
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