Activationless Electron Transfer of Redox-DNA in Electrochemical Nanogaps - Archive ouverte HAL
Article Dans Une Revue Journal of the American Chemical Society Année : 2024

Activationless Electron Transfer of Redox-DNA in Electrochemical Nanogaps

Résumé

Our recent discovery of decreased reorganization energy in electrode-tethered redox-DNA systems prompts inquiries into the origin of this phenomenon and suggests its potential use to lower the activation energy of electrochemical reactions. Here, we show that the confinement of the DNA chain in a nanogap amplifies this effect to an extent to which it nearly abolishes the intrinsic activation energy of electron transfer. Employing electrochemical atomic force microscopy (AFM-SECM), we create sub-10 nm nanogaps between a planar electrode surface bearing end-anchored ferrocenylated DNA chains and an incoming microelectrode tip. The redox cycling of the DNA’s ferrocenyl (Fc) moiety between the surface and the tip generates a measurable current at the scale of ∼10 molecules. Our experimental findings are rigorously interpreted through theoretical modeling and original molecular dynamics simulations (Q-Biol code). Several intriguing findings emerge from our investigation: (i) The electron transport resulting from DNA dynamics is many times faster than predicted by simple diffusion considerations. (ii) The current in the nanogap is solely governed by the electron transfer rate at the electrodes. (iii) This rate rapidly saturates as overpotentials applied to the nanogap electrodes increase, implying near-complete suppression of the reorganization energy for the oxidation/reduction of the Fc heads within confined DNA. Furthermore, evidence is presented that this may constitute a general, previously unforeseen, behavior of redox polymer chains in electrochemical nanogaps.

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Dates et versions

hal-04628486 , version 1 (28-06-2024)

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Zhiyong Zheng, Simon Grall, Soo Hyeon Kim, Arnaud Chovin, Nicolas Clement, et al.. Activationless Electron Transfer of Redox-DNA in Electrochemical Nanogaps. Journal of the American Chemical Society, 2024, 146 (9), pp.6094-6103. ⟨10.1021/jacs.3c13532⟩. ⟨hal-04628486⟩
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