Towards the reactivity of MIL-53 or FeIII(OH)0.8F0.2O2C-C6H4-CO2 versus lithium

机译：迈向MIL-53或FeIII（OH）0.8F0.2 O2C-C6H4-CO2与锂的反应性

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We demonstrate here the reversible electrochemical insertion of lithium into the hybrid porous solid FeIII(OH)0.8F0.2[O2C-C6H4-CO2]. Used as an electrode in Li-half cell, this material shows a reversible redox process around 3.0V vs. Li+/Li° exchanging 0.6Li per formula unit with interesting capacity retention and rate capability. Moreover, it reveals an interesting feature for MOFs with large tunnels: the uptake of electrolyte molecules within their channels, which facilitates ionic transport in MOFs. Mixed valence in MOFs opens new opportunities for the elaboration of materials with tuneable properties for various applications.

机译：我们在这里证明锂可逆地电化学插入到杂化多孔固体FeIII（OH）0.8F0.2 [O2C-C6H4-CO2]中。用作半锂电池中的电极时，这种材料在3.0V左右的可逆氧化还原过程中，相对于Li + / Li°交换每配方单位0.6Li，具有令人感兴趣的容量保持率和倍率性能。此外，它揭示了具有大通道的MOF的一个有趣特征：电解质分子在其通道内的吸收，这有助于MOF中的离子迁移。 MOF中的混合价为为各种应用提供具有可调节特性的材料的精加工提供了新的机会。

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《40th Anniversary of International Zeolite Conference;International Zeolite Conference》|2007年|1-5|共5页
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S.A.Hosseini; M.Mesdaghi;
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Towards the reactivity of MIL-53 or FeIII(OH)0.8F0.2O2C-C6H4-CO2 versus lithium

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