Conductive 3D platforms have gained increasing attention in bioelectronics thanks to the improvement in the cell-chip coupling. PEDOT:PSS is nowadays widely employed in bioelectronic applications thanks to its electrical and mechanical properties. In this work, an innovative fabrication method for the realization of PEDOT:PSS-based conductive micropillars and 3D cage-like structures is presented, combining two-photon lithography and electrodeposition techniques.

Ruggiero, A., Criscuolo, V., Grasselli, S., Bruno, U., Ausilio, C., Bovio, C., et al. (2022). Two-photon polymerization lithography enabling the fabrication of PEDOT:PSS 3D structures for bioelectronic applications. CHEMICAL COMMUNICATIONS, 58(70), 9790-9793 [10.1039/d2cc03152c].

Two-photon polymerization lithography enabling the fabrication of PEDOT:PSS 3D structures for bioelectronic applications

Bettucci, Ottavia;
2022

Abstract

Conductive 3D platforms have gained increasing attention in bioelectronics thanks to the improvement in the cell-chip coupling. PEDOT:PSS is nowadays widely employed in bioelectronic applications thanks to its electrical and mechanical properties. In this work, an innovative fabrication method for the realization of PEDOT:PSS-based conductive micropillars and 3D cage-like structures is presented, combining two-photon lithography and electrodeposition techniques.
Articolo in rivista - Articolo scientifico
PEDOT: PSS, bioelectronics, TPL
English
3-ago-2022
2022
58
70
9790
9793
open
Ruggiero, A., Criscuolo, V., Grasselli, S., Bruno, U., Ausilio, C., Bovio, C., et al. (2022). Two-photon polymerization lithography enabling the fabrication of PEDOT:PSS 3D structures for bioelectronic applications. CHEMICAL COMMUNICATIONS, 58(70), 9790-9793 [10.1039/d2cc03152c].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/414749
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