Herein,iron-based metal–organic frameworks(MOFs),i.e.VNU-21 and VNU-22,and a new MOF termed Fe-NDC Fe_(3)O(NDC)2SO_(4)(HCO_(2))(H_(2)O)2(NDC2−=2,6-naphthalene dicarboxylate),possessing one-dimensional(1D)channels of ...Herein,iron-based metal–organic frameworks(MOFs),i.e.VNU-21 and VNU-22,and a new MOF termed Fe-NDC Fe_(3)O(NDC)2SO_(4)(HCO_(2))(H_(2)O)2(NDC2−=2,6-naphthalene dicarboxylate),possessing one-dimensional(1D)channels of different sizes and shapes in structures,were synthesized,and their methane storage capacities were measured.As a result of the structural design using mixed linkers for controlling the length and width of the rectangular 1D channels during the isoreticularly structural expanse,VNU-21,with the long-narrow 1D channels of 7.0×12.4Å^(2),exhibited the high total volumetric CH_(4)uptake of 182 cm^(3)cm^(-3)at 65 bar and 25℃,which outperformed VNU-22,Fe-NDC and traditional MOFs with large 1D channels(DUT-4 and DUT-5).Remarkably,the CH_(4)uptake of VNU-21 was comparable to those of the benchmark materials(e.g.MOF-5,MOF-177,MOF-205,MOF-210 and MOF-905-NO_(2))for methane storage at 65 bar despite the significantly lower surface area of this compound.We believe that this design strategy will inspire the synthesis of new porous frameworks such as the reticularly expanded structures of VNU-21,which have been characterized by both high surface area and a strong CH_(4)-framework interaction for enhancing the methane storage capacity.展开更多
基金supported by the Vietnam National Foundation for Science and Technology Development(NAFOSTED)under the Project Code 104.05-2018.365.
文摘Herein,iron-based metal–organic frameworks(MOFs),i.e.VNU-21 and VNU-22,and a new MOF termed Fe-NDC Fe_(3)O(NDC)2SO_(4)(HCO_(2))(H_(2)O)2(NDC2−=2,6-naphthalene dicarboxylate),possessing one-dimensional(1D)channels of different sizes and shapes in structures,were synthesized,and their methane storage capacities were measured.As a result of the structural design using mixed linkers for controlling the length and width of the rectangular 1D channels during the isoreticularly structural expanse,VNU-21,with the long-narrow 1D channels of 7.0×12.4Å^(2),exhibited the high total volumetric CH_(4)uptake of 182 cm^(3)cm^(-3)at 65 bar and 25℃,which outperformed VNU-22,Fe-NDC and traditional MOFs with large 1D channels(DUT-4 and DUT-5).Remarkably,the CH_(4)uptake of VNU-21 was comparable to those of the benchmark materials(e.g.MOF-5,MOF-177,MOF-205,MOF-210 and MOF-905-NO_(2))for methane storage at 65 bar despite the significantly lower surface area of this compound.We believe that this design strategy will inspire the synthesis of new porous frameworks such as the reticularly expanded structures of VNU-21,which have been characterized by both high surface area and a strong CH_(4)-framework interaction for enhancing the methane storage capacity.
