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Main Authors: Goto, Takayuki, Hashimoto, Takeshi, Sato, Kai, Kitamoto, Yukihiro, Hayashita, Takashi, Iguchi, Satoshi, Sasaki, Takahiko, Sari, Dita Puspita, Watanabe, Isao
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2401.01087
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author Goto, Takayuki
Hashimoto, Takeshi
Sato, Kai
Kitamoto, Yukihiro
Hayashita, Takashi
Iguchi, Satoshi
Sasaki, Takahiko
Sari, Dita Puspita
Watanabe, Isao
author_facet Goto, Takayuki
Hashimoto, Takeshi
Sato, Kai
Kitamoto, Yukihiro
Hayashita, Takashi
Iguchi, Satoshi
Sasaki, Takahiko
Sari, Dita Puspita
Watanabe, Isao
contents Existence of 1D spin diffusion in the electrochemical sugar recognition system consisting of a nano-sized gold particle (GNP), a ruthenium complex and a phenylboronic acid was investigated by NMR and muSR. When sugar molecules are recognized by the phenylboronic site, the response of electrochemical voltammetry of the Ru site changes, enabling the system to work as a sensitive sugar-sensor. In this recognition process, the change in the electronic state at the boron site caused by sugar must be transferred to the Ru site via alkyl chains. We have utilized the muon-labelled electrons method and the proton NMR to find out a channel of the electron transfer from the phenylboronic acid site to the gold nano particle via the one dimensional alkyl chain. If this transfer is driven by diffusive spin channel, characteristic field dependence is expected in the longitudinal spin relaxation rate of muSR and 1H-NMR. We have observed significant decrease in the spin relaxation rates with increasing applied field. The result is discussed in terms of low dimensional spin diffusion.
format Preprint
id arxiv_https___arxiv_org_abs_2401_01087
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Electron transfer channel in the sugar recognition system assembled on nano gold particle
Goto, Takayuki
Hashimoto, Takeshi
Sato, Kai
Kitamoto, Yukihiro
Hayashita, Takashi
Iguchi, Satoshi
Sasaki, Takahiko
Sari, Dita Puspita
Watanabe, Isao
Statistical Mechanics
Existence of 1D spin diffusion in the electrochemical sugar recognition system consisting of a nano-sized gold particle (GNP), a ruthenium complex and a phenylboronic acid was investigated by NMR and muSR. When sugar molecules are recognized by the phenylboronic site, the response of electrochemical voltammetry of the Ru site changes, enabling the system to work as a sensitive sugar-sensor. In this recognition process, the change in the electronic state at the boron site caused by sugar must be transferred to the Ru site via alkyl chains. We have utilized the muon-labelled electrons method and the proton NMR to find out a channel of the electron transfer from the phenylboronic acid site to the gold nano particle via the one dimensional alkyl chain. If this transfer is driven by diffusive spin channel, characteristic field dependence is expected in the longitudinal spin relaxation rate of muSR and 1H-NMR. We have observed significant decrease in the spin relaxation rates with increasing applied field. The result is discussed in terms of low dimensional spin diffusion.
title Electron transfer channel in the sugar recognition system assembled on nano gold particle
topic Statistical Mechanics
url https://arxiv.org/abs/2401.01087