Article Dans Une Revue Materials Advances Année : 2021

Efficient construction of a redox responsive thin polymer layer on glassy carbon and gold surfaces for voltage-gated delivery applications

Résumé

The use of electron-deficient picolinium probes Q2 provides a solution for the selective construction of end-tethered oligomers on gold and glassy carbon surfaces when using the popular while non-selective aryl-diazonium coating strategy. The ''intelligent'' surface allowed the remarkably rapid and nearly quantitative liberation of covalently tethered ligands by electroactivation. Please check this proof carefully. Our staff will not read it in detail after you have returned it. Please send your corrections either as a copy of the proof PDF with electronic notes attached or as a list of corrections. Do not edit the text within the PDF or send a revised manuscript as we will not be able to apply your corrections. Corrections at this stage should be minor and not involve extensive changes. First (given) and middle name(s) Last (family) name(s) ResearcherID ORCID iD

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hal-03411050 , version 1 (02-11-2021)

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Anna Barosi, Avni Berisha, Claire Mangeney, Jean Pinson, Hamid Dhimane, et al.. Efficient construction of a redox responsive thin polymer layer on glassy carbon and gold surfaces for voltage-gated delivery applications. Materials Advances, 2021, 2 (7), pp.2358-2365. ⟨10.1039/d1ma00022e⟩. ⟨hal-03411050⟩
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