Dielectric-dependent electron transfer behaviour of cobalt hexacyanides in a solid solution of sodium chloride

Di Huang; Yiliang Zhu; Ya Qiong Su; Jie Zhang; Lianhuan Han; De Yin Wu; Zhong Qun Tian; Dongping Zhan

doi:10.1039/c5sc02153g

Dielectric-dependent electron transfer behaviour of cobalt hexacyanides in a solid solution of sodium chloride

Di Huang
, Yiliang Zhu
, Ya Qiong Su
, Jie Zhang
, Lianhuan Han
, De Yin Wu
, Zhong Qun Tian
, Dongping Zhan

Xiamen University

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

Here we emphasise the importance of the dielectric environment on the electron transfer behavior in interfacial electrochemical systems. Through doping cobalt hexacyanide (Co(CN)₆^3-) into single microcrystals of sodium chloride (NaCl), for the first time, we obtained the direct electrochemical behavior of Co(CN)₆^3- which is hardly ever obtained in either aqueous or conventional nonaqueous solutions. DFT calculations elucidate that, as the Co(CN)₆^3- anions occupy the lattice units of NaCl₆^5- in the NaCl microcrystal, the redox energy barrier of Co(CN)₆^3-/4- is decreased dramatically due to the low dielectric constant of NaCl. Meanwhile, the low-spin Co(CN)₆^4- anions are stabilized in the lattices of the NaCl microcrystal. The results also show that the NaCl microcrystal is a potential solvent for solid-state electrochemistry at ambient temperature.

Original language	English
Pages (from-to)	6091-6096
Number of pages	6
Journal	Chemical Science
Volume	6
Issue number	11
DOIs	https://doi.org/10.1039/c5sc02153g
State	Published - 21 Jul 2015
Externally published	Yes

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title = "Dielectric-dependent electron transfer behaviour of cobalt hexacyanides in a solid solution of sodium chloride",

abstract = "Here we emphasise the importance of the dielectric environment on the electron transfer behavior in interfacial electrochemical systems. Through doping cobalt hexacyanide (Co(CN)63-) into single microcrystals of sodium chloride (NaCl), for the first time, we obtained the direct electrochemical behavior of Co(CN)63- which is hardly ever obtained in either aqueous or conventional nonaqueous solutions. DFT calculations elucidate that, as the Co(CN)63- anions occupy the lattice units of NaCl65- in the NaCl microcrystal, the redox energy barrier of Co(CN)63-/4- is decreased dramatically due to the low dielectric constant of NaCl. Meanwhile, the low-spin Co(CN)64- anions are stabilized in the lattices of the NaCl microcrystal. The results also show that the NaCl microcrystal is a potential solvent for solid-state electrochemistry at ambient temperature.",

author = "Di Huang and Yiliang Zhu and Su, \{Ya Qiong\} and Jie Zhang and Lianhuan Han and Wu, \{De Yin\} and Tian, \{Zhong Qun\} and Dongping Zhan",

note = "Publisher Copyright: {\textcopyright} The Royal Society of Chemistry.",

year = "2015",

month = jul,

day = "21",

doi = "10.1039/c5sc02153g",

language = "英语",

volume = "6",

pages = "6091--6096",

journal = "Chemical Science",

issn = "2041-6520",

publisher = "Royal Society of Chemistry",

number = "11",

}

TY - JOUR

T1 - Dielectric-dependent electron transfer behaviour of cobalt hexacyanides in a solid solution of sodium chloride

AU - Huang, Di

AU - Zhu, Yiliang

AU - Su, Ya Qiong

AU - Zhang, Jie

AU - Han, Lianhuan

AU - Wu, De Yin

AU - Tian, Zhong Qun

AU - Zhan, Dongping

PY - 2015/7/21

Y1 - 2015/7/21

N2 - Here we emphasise the importance of the dielectric environment on the electron transfer behavior in interfacial electrochemical systems. Through doping cobalt hexacyanide (Co(CN)63-) into single microcrystals of sodium chloride (NaCl), for the first time, we obtained the direct electrochemical behavior of Co(CN)63- which is hardly ever obtained in either aqueous or conventional nonaqueous solutions. DFT calculations elucidate that, as the Co(CN)63- anions occupy the lattice units of NaCl65- in the NaCl microcrystal, the redox energy barrier of Co(CN)63-/4- is decreased dramatically due to the low dielectric constant of NaCl. Meanwhile, the low-spin Co(CN)64- anions are stabilized in the lattices of the NaCl microcrystal. The results also show that the NaCl microcrystal is a potential solvent for solid-state electrochemistry at ambient temperature.

AB - Here we emphasise the importance of the dielectric environment on the electron transfer behavior in interfacial electrochemical systems. Through doping cobalt hexacyanide (Co(CN)63-) into single microcrystals of sodium chloride (NaCl), for the first time, we obtained the direct electrochemical behavior of Co(CN)63- which is hardly ever obtained in either aqueous or conventional nonaqueous solutions. DFT calculations elucidate that, as the Co(CN)63- anions occupy the lattice units of NaCl65- in the NaCl microcrystal, the redox energy barrier of Co(CN)63-/4- is decreased dramatically due to the low dielectric constant of NaCl. Meanwhile, the low-spin Co(CN)64- anions are stabilized in the lattices of the NaCl microcrystal. The results also show that the NaCl microcrystal is a potential solvent for solid-state electrochemistry at ambient temperature.

UR - https://www.scopus.com/pages/publications/84944242310

U2 - 10.1039/c5sc02153g

DO - 10.1039/c5sc02153g

M3 - 文章

AN - SCOPUS:84944242310

SN - 2041-6520

VL - 6

SP - 6091

EP - 6096

JO - Chemical Science

JF - Chemical Science

IS - 11

ER -

Dielectric-dependent electron transfer behaviour of cobalt hexacyanides in a solid solution of sodium chloride

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