Phuc Tan Bui scite author profile

Understanding electron transfer (ET) from a single molecule to another single molecule holds essential importance to realize bottom-up molecular devices in which constituent molecules are self-assembled via noncovalent interactions between each other. However, rather little is currently known about the ET properties at the single-molecule interface. Here we employ molecular tips to quantify the ET through a H-bond between single molecules. We found that a H-bond conducts electrons better than a covalent σ bond at short-range. Its conductance, however, decays steeply as the chain length of the H-bonded molecules increases. First-principle calculations were performed to reveal the electronic origin of the facile ET through the H-bond. Our results demonstrate that H-bonding in a molecular junction significantly affects its transport property.

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Quantitative Exploration of Electron Transfer in a Single Noncovalent Supramolecular Assembly

Bui¹,

Nishino²,

Yamamoto³

et al. 2013

J. Am. Chem. Soc.

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Electron transfer through a noncovalent interaction bears essential relevance to the functions of bottom-up supramolecular assembly. However, rather little knowledge regarding such phenomena at the single-molecule level is currently available. Herein we report the direct quantification of electron-transfer processes for a single noncovalently linked porphyrin-fullerene dyad. Facilitated electron transfer via a charge-transfer interaction in-between was successfully measured by utilizing a fullerene molecular tip. The rectification property of the supramolecular assembly was determined and quantitatively assessed. The present study opens up a way to explore quantitatively the rich electronic properties of supramolecules at the single-molecule level.

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Electron transfer through coordination bond interaction between single molecules: conductance switching by a metal ion

Bui

Nishino

2014

Phys. Chem. Chem. Phys.

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Molecular tips were used to investigate electron transfer through metal-coordination bonds between single molecules. Coordination of a single metal ion to two carboxylate-terminated thiolate molecules formed a sandwich-type single molecular junction. It was found that a favorable charge transfer is induced through such molecular junctions. The electron transfer facilitated by metal coordination was utilized to implement conductance switching in a molecular junction of a head-to-head pyridine dimer. The present research offers a method to control electronic functions required in the construction of functional electronic molecular devices.

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Direct electrical single-molecule detection of DNA through electron transfer induced by hybridization

Nishino

Bui

2013

Chem. Commun.

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One-by-one single-molecule detection of mutated nucleobases by monitoring tunneling current using a DNA tip

et al. 2015

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Phuc Tan Bui

Direct Measurement of Electron Transfer through a Hydrogen Bond between Single Molecules

Quantitative Exploration of Electron Transfer in a Single Noncovalent Supramolecular Assembly

Electron transfer through coordination bond interaction between single molecules: conductance switching by a metal ion

Direct electrical single-molecule detection of DNA through electron transfer induced by hybridization

One-by-one single-molecule detection of mutated nucleobases by monitoring tunneling current using a DNA tip

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