Engineered Conductive Proteins for Bioelectronics

CORDIS oferuje możliwość skorzystania z odnośników do publicznie dostępnych publikacji i rezultatów projektów realizowanych w ramach programów ramowych HORYZONT.

Odnośniki do rezultatów i publikacji związanych z poszczególnymi projektami 7PR, a także odnośniki do niektórych konkretnych kategorii wyników, takich jak zbiory danych i oprogramowanie, są dynamicznie pobierane z systemu OpenAIRE .

Rezultaty

Recombinant CTPR platform: e-Ps

Accomplishment of conductive structures based on engineered CTPR recombinant proteins BIOMA m12

Self-assembled conductive e-Ps-based fibers and biomaterials

Assembly of the engineered protein-based conductive modules into higher order structures: protein-based fibers and macroscopic biomaterials (BIOMA, m28)

Upscale production of e-Prots

Accomplishment of large-scale production of the engineered protein modules with conductive properties (BIOMA, m30)

Self-assembled conductive pCTPR (natural residues)

Accomplishment of conductive structures based on selfassembled engineered CTPR synthetic protein modules based fully on natural amino acids CiQUS m9

First screen of e-/H+ conducting e-Ps

Processing of conductive protein modules and accomplishment of efficient electron and proton conducting protein fibers and gel films BGU m18

Conductive properties at nano-fiber and gel-films

Determination of the conductive properties of the second generation of self-assembled nanofibers and macroscopic gel-films composed of engineered conductive protein modules (BGU, m24)

Self-assembled pCTPR (artificial functionalities)

Accomplishment of conductive structures based on self-assembled engineered CTPR synthetic protein modules that include in their sequence non-natural amino acids (CiQUS, m24)

e/H+ transport properties of single e-Ps units

Characterization of the electron and proton transport features at the molecular level, using the designed conductive protein modules (UA, m24)

Website and Twitter

Website and Twitter accounts BIOMA m3

Publikacje

An Electroactive and Self-Assembling Bio-Ink, based on Protein-Stabilized Nanoclusters and Graphene, for the Manufacture of Fully Inkjet-Printed Paper-Based Analytical Devices

Autorzy: Silvestri, A; Vázquez-Díaz, S; Misia, G; Poletti, F; López-Domene, R; Pavlov, V; Zanardi, C; Cortajarena, AL; Prato, M.
Opublikowane w: Small, Numer 19, 2023, Strona(/y) 2300163, ISSN 1613-6810
Wydawca: Wiley - V C H Verlag GmbbH & Co.
DOI: 10.1002/smll.202300163

Engineering Proteins for PEDOT Dispersions: A New Horizon for Highly Mixed Ionic-Electronic Biocompatible Conducting Materials

Autorzy: Dominguez-Alfaro, A.; Casado, N.; Fernandez, M.; Garcia-Esnaola, A.; Calvo, J.; Mantione, D.; Calvo, MR.; Cortajarena, AL
Opublikowane w: Small, Numer 2307536, 2023, Strona(/y) 2307536, ISSN 1613-6810
Wydawca: Wiley - V C H Verlag GmbbH & Co.
DOI: 10.1002/smll.202307536

Molecular Graphene nanoribbon Junctions

Autorzy: Mauro Marongiu, Tracy Ha, Sara Gil-Guerrero, Kavita Garg, Marcos Mandado, Manuel Melle-Franco, Ismael Diez-Perez, and Aurelio Mateo-Alonso
Opublikowane w: J. Am. Chem. Soc., Numer 146, 6,, 2024, Strona(/y) 3963–3973, ISSN 0002-7863
Wydawca: American Chemical Society
DOI: 10.1021/jacs.3c11340

Crystallization of molecular layers produced under confinement onto a surface

Autorzy: Jincheng Tong, Nathan de Bruyn, Adriana Alieva, Elizabeth. J. Legge, Matthew Boyes, Xiuju Song, Alvin J. Walisinghe, Andrew J. Pollard, Michael W. Anderson, Thomas Vetter, Manuel Melle-Franco & Cinzia Casiraghi
Opublikowane w: Nature Communications, Numer 15, 2024, Strona(/y) 2015, ISSN 2041-1723
Wydawca: Nature Publishing Group
DOI: 10.1038/s41467-024-45900-0

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