化学
电导率
电解质
磺酸盐
化学稳定性
结晶学
电化学
齿合度
氢键
无机化学
质子
快离子导体
衍射
惰性
氢
离子电导率
化学物理
X射线晶体学
电阻率和电导率
物理化学
稳健性(进化)
立体化学
计算化学
Atom(片上系统)
纳米技术
作者
Kai Wang,Shaoan Wang,Zhiwen Shi,Jing Ju,Xiaoge Wang,Junliang Sun,Fan Li,Fan Yang
摘要
Proton-conducting two-dimensional metal–organic frameworks (2D MOFs) are attractive solid electrolytes for electrochemical technologies, yet simultaneously achieving superprotonic conductivity and robustness remains highly challenging. Here, we report TGU-80(Cr), a 2D Cr(III)-MOF synthesized via a solvent-free route enabled by a stereochemistry-guided sulfonate-linker design. Three-dimensional electron diffraction reveals a bidentate sulfonate coordination motif that preserves one noncoordinating O atom on every sulfonate, furnishing O-dense nanochannels that favor hydration and hydrogen-bonding networks. These channels support fast proton transport, delivering a conductivity up to 5.61 × 10 –2 S cm –1 at 90 °C and 100% RH, which, to the best of our knowledge, is among the highest reported for additive-free proton-conducting 2D MOFs. Owing to inert Cr–O bonds and extensive interlayer hydrogen bonding, TGU-80(Cr) also exhibits exceptional chemical stability from strongly acidic media to 1 M NaOH. This work not only establishes an unprecedented 2D Cr-MOF that combines ultrahigh stability with superprotonic conductivity but also expands the design and synthesis strategies for low-dimensional reticular materials via the green solvent-free route.
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