Close-packing effect of water clusters within metal–organic framework pores on proton conductivity: a dielectric relaxation phenomenon in loose space and colossal dielectric permittivity†

IF 3.5 3区 化学 Q2 CHEMISTRY, INORGANIC & NUCLEAR Dalton Transactions Pub Date : 2024-10-14 DOI:10.1039/D4DT01945H
Bingtang Chen, Fengxia Xie, Xiaoqiang Liang, Chengan Wan, Feng Zhang, Lei Feng, Qianmeng Lai, Ziyan Wang and Chen Wen
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Abstract

Proton-conducting metal–organic frameworks (MOFs) have attracted tremendous attention for their promising application in proton-exchange membrane fuel cells. Water clusters play an extremely important role in the proton-conduction process and affect the proton conductivity of host materials. To date, the close-packing effect of water clusters within pores on proton conductivity due to the amorphous structure of commercial proton-exchange membranes is unclear. Herein, we prepared two crystalline MOFs containing different water clusters, namely, [Sm2(fum)3(H2O)4]·3H2O (Sm-fum-7H2O) and [Er2(fum)3(H2O)4]·8H2O (Er-fum-12H2O) (H2fum = fumaric acid), and regulated their proton conductivities by changing the water clusters. As expected, Sm-fum-7H2O showed a high proton conductivity of 6.89 × 10−4 S cm−1 at 333 K and ∼97% RH because of the close packing of the water clusters within the pores triggered by a lanthanide contraction effect, outperforming that of Er-fum-12H2O and some previously reported MOFs. Additionally, Sm-fum-7H2O and Er-fum-12H2O demonstrated high dielectric functions, reaching 2.22 × 103 and 1.42 × 105 at 102.5 Hz, respectively, making Er-fum-12H2O a highly dielectric material. More importantly, broadband dielectric spectroscopy measurements indicated that there was a dielectric relaxation process in Er-fum-12H2O with an activation energy of 0.59 eV. The present findings provide a better understanding of the crucial role of confined water clusters in proton conductivity and the novel phenomenon of the coexistence of proton conduction and dielectric relaxation in crystalline MOF materials.

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金属有机框架孔隙中水团簇的紧密堆积对质子传导性的影响:松散空间中的介电弛豫现象和巨大的介电常数
质子交换膜燃料电池。水簇在质子传导过程中发挥着极其重要的作用,并影响着宿主材料的质子传导性。迄今为止,由于商用质子交换膜的非晶体结构,水簇在孔隙中的紧密堆积效应对质子传导性的影响尚不清楚。在此,我们制备了两种含有不同水簇的结晶 MOFs:[Sm2(fum)3(H2O)4]-3H2O(Sm-fum-7H2O)和[Er2(fum)3 (H2O)4]-8H2O(Er-fum-12H2O)(H2fum = 富马酸),并通过改变水簇来调节它们的质子传导性。正如预期的那样,由于镧系元素收缩效应引发了孔隙中水团的紧密堆积,Sm-fum-7H2O 在 333 K 和 ~97% RH 条件下显示出 6.89 × 10-4 S-cm-1 的高质子电导率,优于 Er-fum-12H2O 和之前报道的一些 MOFs。此外,Sm-fum-7H2O 和 Er-fum-12H2O 还具有很高的介电函数,在 102.5 Hz 频率下分别达到 2.22 ×103 和 1.42 ×105,其中 Er-fum-12H2O 进入了巨型介电材料的行列。更重要的是,宽带介电光谱测量表明,Er-fum-12H2O 中存在介电弛豫过程,其活化能为 0.59 eV。这一发现让人们更好地理解了密闭水簇在质子传导中的关键作用,以及晶体 MOF 材料中质子传导与介电弛豫共存的新现象。
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来源期刊
Dalton Transactions
Dalton Transactions 化学-无机化学与核化学
CiteScore
6.60
自引率
7.50%
发文量
1832
审稿时长
1.5 months
期刊介绍: Dalton Transactions is a journal for all areas of inorganic chemistry, which encompasses the organometallic, bioinorganic and materials chemistry of the elements, with applications including synthesis, catalysis, energy conversion/storage, electrical devices and medicine. Dalton Transactions welcomes high-quality, original submissions in all of these areas and more, where the advancement of knowledge in inorganic chemistry is significant.
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