材料名称:UIO-66-SO3H
其他名称:NA
CAS:1334722-07-4
其他名称:NA
CAS:1334722-07-4
结构信息
| 单位分子式 | C48H3O50S6Zr6-6.H+ | 单位分子量 | 2120.25 | ||
| 配位金属 | Zr | 配体 | 2-磺酸基对苯二甲酸 (CAS: 4991-22-4) | ||
| 孔径 | 0.8nm, 1.1nm | 孔容 | 0.5 cm3/g | ||
| 比表面 | BET比表面 385 m2/g | ||||
| 模拟结构 |   |
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产品性状
| 产品形貌 | 白色粉末 White Powder |
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| 粒径 | ||||
稳定性
1) UIO-66-SO3H 非常稳定,在水溶液和酸性条件下稳定 。耐氟离子。
2)高热稳定性、热分解温度大于400℃
2)高热稳定性、热分解温度大于400℃
保存和活化方法
1) 常温或低温条件下,干燥密封保存
2) 建议使 用前150度(真空)烘箱活化3小时
2) 建议使 用前150度(真空)烘箱活化3小时
其他特性
荧光:NA
应用领域
1) 储气材料和吸附材料
2) UIO-66中配体上裸露的磺酸基可作为质子酸催化剂,也可掺杂作为质子膜材料,或作为探针检测各类金属阳离子
2) UIO-66中配体上裸露的磺酸基可作为质子酸催化剂,也可掺杂作为质子膜材料,或作为探针检测各类金属阳离子
表征图谱
参考文献
1) J. H. Cavka, S. Jakobsen, U. Olsbye, N. Guillou, C. Lamberti, S. Bordiga, K. P. Lillerud, J. Am. Chem. Soc. 2008, 130, 13850–13851, DOI: 10.1021/ja8057953 ; A New Zirconium Inorganic Building Brick Forming Metal Organic Frameworks with Exceptional Stability
2) S. J. Garibaya, S. M. Cohen, Chem. Commun., 2010,46, 7700-7702, DOI: 10.1039/C0CC02990D ; Isoreticular synthesis and modification of frameworks with the UiO-66 topology;
3) Qingyuan Yang, Andrew D. Wiersum, Philip L. Llewellyn, Vincent Guillerm, Christian Serred, Guillaume Maurin; ChemComm, 2011, 47, 9603–9605; DOI :10.1039/c1cc13543k; Functionalizing porous zirconium terephthalate UiO-66(Zr) for natural gas upgrading: a computational exploration【文献解读】;
4)Shyam Biswas, Jian Zhang, Zhibao Li, Ying-Ya Liu, Maciej Grzywa, Lixian Sun, Dirk Volkmer, Pascal Van Der Voort; Dalton Transactions, 2013, 42, 4730-4737; DOI:10.1039/c3dt32288b; Enhanced Selectivity of CO₂ over CH₄ in Sulphonate-, Carboxylate- and Iodo-Functionalized UiO-66 Frameworks【文献解读】;
5)Fan Yang, Hongliang Huang, Xiayan Wang, Fan Li, Yuhan Gong, Chongli Zhong, Jian-Rong Li; Crystal Growth & Design, 2015, 15, 5827-5833; DOI:10.1021/acs.cgd.5b01190; Proton Conductivities in Functionalized UiO-66: Tuned Properties, Thermogravimetry-Mass and Molecular Simulation Analyses【文献解读】;
6)Lulu Wen, Kang Sun, Xiaoshuo Liu, Weijie Yang, Luyan Li, Hai-Long Jiang*; Advanced Materials, 2023, 35, 2210669; DOI:10.1002/adma.202210669; Electronic State and Microenvironment Modulation of Metal Nanoparticles Stabilized by MOFs for Boosting Electrocatalytic Nitrogen Reduction【文献解读】
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