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Resonant enhancement of polymer–cell optostimulation by a Plasmonic metasurface

Resonant enhancement of polymer–cell optostimulation by a Plasmonic metasurface
Resonant enhancement of polymer–cell optostimulation by a Plasmonic metasurface
Organic semiconductors have shown great potential as efficient bioelectronic materials. Specifically, photovoltaic polymers such as the workhorse poly(thiophene) derivatives, when stimulated with visible light, can depolarize neurons and generate action potentials, an effect that has been also employed for rescuing vision in blind rats. In this context, however, the coupling of such materials with optically resonant structures to enhance those photodriven biological effects is still in its infancy. Here, we employ the optical coupling between a nanostructured metasurface and poly(3-hexylthiophene) (P3HT) to improve the bioelectronic effects occurring upon photostimulation at the abiotic–biotic interface. In particular, we designed a spectrally tuned aluminum metasurface that can resonate with P3HT, hence augmenting the effective field experienced by the polymer. In turn, this leads to an 8-fold increase in invoked inward current in cells. This enhanced activation strategy could be useful to increase the effectiveness of P3HT-based prosthetic implants for degenerative retinal disorders.
2470-1343
42674–42680
Maity, Arijit
78b87ad0-5a06-49e8-a650-0c7f47c7690e
Perotto, Sara
60299add-7763-41f3-81b0-4a39a07c33f7
Moschetta, Matteo
5ab6a0d8-7c1f-4d2d-bd6a-9c4cddc25fb5
Hua, Huang
0db31f8f-986b-4e0b-90c1-32fe57b4d405
Sardar, Samim
ceb907d5-8715-4ef6-bbd4-dc539ee622c6
Paternò, Giuseppe Maria
05a59fde-cfe3-4c97-bdd1-a428d98fbb2d
Tian, Jingyi
35f2c116-9f84-4dc8-8edd-651656b1160b
Klein, Maciej
aff609d1-2c48-432e-82ee-3973564c2161
Adamo, Giorgio
73480dbd-5d3e-415a-b569-9606b3dbeecc
Lanzani, Guglielmo
d9ac9791-8dfc-4cda-94f0-62b6fbc62137
Soci, Cesare
38b2dc9e-77d4-4e3e-9308-40ee93d61e7a
Maity, Arijit
78b87ad0-5a06-49e8-a650-0c7f47c7690e
Perotto, Sara
60299add-7763-41f3-81b0-4a39a07c33f7
Moschetta, Matteo
5ab6a0d8-7c1f-4d2d-bd6a-9c4cddc25fb5
Hua, Huang
0db31f8f-986b-4e0b-90c1-32fe57b4d405
Sardar, Samim
ceb907d5-8715-4ef6-bbd4-dc539ee622c6
Paternò, Giuseppe Maria
05a59fde-cfe3-4c97-bdd1-a428d98fbb2d
Tian, Jingyi
35f2c116-9f84-4dc8-8edd-651656b1160b
Klein, Maciej
aff609d1-2c48-432e-82ee-3973564c2161
Adamo, Giorgio
73480dbd-5d3e-415a-b569-9606b3dbeecc
Lanzani, Guglielmo
d9ac9791-8dfc-4cda-94f0-62b6fbc62137
Soci, Cesare
38b2dc9e-77d4-4e3e-9308-40ee93d61e7a

Maity, Arijit, Perotto, Sara, Moschetta, Matteo, Hua, Huang, Sardar, Samim, Paternò, Giuseppe Maria, Tian, Jingyi, Klein, Maciej, Adamo, Giorgio, Lanzani, Guglielmo and Soci, Cesare (2022) Resonant enhancement of polymer–cell optostimulation by a Plasmonic metasurface. ACS Omega, 7 (47), 42674–42680. (doi:10.1021/acsomega.2c04812).

Record type: Article

Abstract

Organic semiconductors have shown great potential as efficient bioelectronic materials. Specifically, photovoltaic polymers such as the workhorse poly(thiophene) derivatives, when stimulated with visible light, can depolarize neurons and generate action potentials, an effect that has been also employed for rescuing vision in blind rats. In this context, however, the coupling of such materials with optically resonant structures to enhance those photodriven biological effects is still in its infancy. Here, we employ the optical coupling between a nanostructured metasurface and poly(3-hexylthiophene) (P3HT) to improve the bioelectronic effects occurring upon photostimulation at the abiotic–biotic interface. In particular, we designed a spectrally tuned aluminum metasurface that can resonate with P3HT, hence augmenting the effective field experienced by the polymer. In turn, this leads to an 8-fold increase in invoked inward current in cells. This enhanced activation strategy could be useful to increase the effectiveness of P3HT-based prosthetic implants for degenerative retinal disorders.

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Published date: 29 November 2022
Learn more about the Optoelectronics Research Centre

Identifiers

Local EPrints ID: 509578
URI: http://eprints.soton.ac.uk/id/eprint/509578
DOI: doi:10.1021/acsomega.2c04812
ISSN: 2470-1343
PURE UUID: cc68929f-1c93-4998-89b3-4dc5b899c6f8

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Date deposited: 25 Feb 2026 18:01
Last modified: 27 Feb 2026 18:03

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Contributors

Author: Arijit Maity
Author: Sara Perotto
Author: Matteo Moschetta
Author: Huang Hua
Author: Samim Sardar
Author: Giuseppe Maria Paternò
Author: Jingyi Tian
Author: Maciej Klein
Author: Giorgio Adamo
Author: Guglielmo Lanzani
Author: Cesare Soci

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