We report the first example of a rod MOF in which the rod axes intersect. This suggests a new area of reticular chemistry in which helical rods that can be linked into frameworks are designed
Presented here is an unusual microporous metal–organic framework (<b>FIR-30</b>) integrating helical...
Herein we describe the topological influence of zigzag ligands in the assembly of Zr(IV) metal-organ...
International audienceThe past 20 years have witnessed tremendous advances in the field of porous ma...
We report the first example of a rod MOF in which the rod axes intersect. This suggests a new area o...
Rod MOFs are metal–organic frameworks in which the metal-containing secondary building units consist...
Herein we describe the topological influence of zigzag ligands in the assembly of Zr(IV) metal–orga...
The structures of all 1127 three-periodic extended metal-organic frameworks (MOFs) reported in the C...
We demonstrate how a bioinspired synthetic approach can help organic linkers distinguish between dif...
Structural diversity of metal–organic frameworks (MOFs) has been largely limited to linkers with at ...
The establishment of novel design strategies to target chiral rodlike MOFs, elusively faced until no...
Metal–organic frameworks (MOFs) are ordered arrays of polytopic organic ligands, commonly called lin...
The past 20 years have witnessed tremendous advances in the field of porous materials, including the...
The preparation of materials with structures composed of multiple metal cations that occupy specific...
Reticular design is a highly attractive concept, but coordination chemistry around the tectonic unit...
Two new metal–organic frameworks, {[Co<sub>3</sub>(μ<sub>3</sub>-DMPhIDC)<sub>2</sub>(H<sub>2</sub>O...
Presented here is an unusual microporous metal–organic framework (<b>FIR-30</b>) integrating helical...
Herein we describe the topological influence of zigzag ligands in the assembly of Zr(IV) metal-organ...
International audienceThe past 20 years have witnessed tremendous advances in the field of porous ma...
We report the first example of a rod MOF in which the rod axes intersect. This suggests a new area o...
Rod MOFs are metal–organic frameworks in which the metal-containing secondary building units consist...
Herein we describe the topological influence of zigzag ligands in the assembly of Zr(IV) metal–orga...
The structures of all 1127 three-periodic extended metal-organic frameworks (MOFs) reported in the C...
We demonstrate how a bioinspired synthetic approach can help organic linkers distinguish between dif...
Structural diversity of metal–organic frameworks (MOFs) has been largely limited to linkers with at ...
The establishment of novel design strategies to target chiral rodlike MOFs, elusively faced until no...
Metal–organic frameworks (MOFs) are ordered arrays of polytopic organic ligands, commonly called lin...
The past 20 years have witnessed tremendous advances in the field of porous materials, including the...
The preparation of materials with structures composed of multiple metal cations that occupy specific...
Reticular design is a highly attractive concept, but coordination chemistry around the tectonic unit...
Two new metal–organic frameworks, {[Co<sub>3</sub>(μ<sub>3</sub>-DMPhIDC)<sub>2</sub>(H<sub>2</sub>O...
Presented here is an unusual microporous metal–organic framework (<b>FIR-30</b>) integrating helical...
Herein we describe the topological influence of zigzag ligands in the assembly of Zr(IV) metal-organ...
International audienceThe past 20 years have witnessed tremendous advances in the field of porous ma...
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