Cubic Diamond Lattice Metal-Organic Framework
From Proteopedia
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| - | <StructureSection load='' size='450' side='right' caption='A Metal–organic framework structure: the CSD entry JARMEU' scene='10/1092924/ | + | <StructureSection load='' size='450' side='right' caption='A Metal–organic framework structure: the CSD entry JARMEU' scene='10/1092924/Csd_entry_jarmeu_basics/2' > |
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| - | Shown at the right is the building block of the network (<scene name='10/1092924/ | + | Shown at the right is the building block of the network (<scene name='10/1092924/Csd_entry_jarmeu_basics/2'>restore initial scene</scene>). |
<span style="font-size:200%;">{{Template:ColorKey_Element_C}}, {{Template:ColorKey_Element_N}}, '''{{Font color|#C88033|Cu}}'''</span> | <span style="font-size:200%;">{{Template:ColorKey_Element_C}}, {{Template:ColorKey_Element_N}}, '''{{Font color|#C88033|Cu}}'''</span> | ||
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</jmol> | </jmol> | ||
| - | The metal here is copper. | + | The metal here is copper.<br/> |
| + | A beautiful diamondoid structure appears that is a 4-connected network. <br/> | ||
| - | When the repeats of this building block are shown connected to others, the crystalline lattice appears. Viewing the <scene name='10/1092924/Csd_entry_jarmeu_1x1x3_set/4'>the CSD entry JARMEU as a 1x1x3 set of the metal organic framework</scene> illustrates this.<br/> | + | When the repeats of this 4-connected network building block are shown connected to others, the crystalline lattice appears.<br/> |
| - | + | Viewing the <scene name='10/1092924/Csd_entry_jarmeu_1x1x3_set/4'>the CSD entry JARMEU as a 1x1x3 set of the metal organic framework</scene> illustrates this.<br/> | |
The large cavities are visible as the lattice layers onto itself as the view of the structure rotates. <br/> | The large cavities are visible as the lattice layers onto itself as the view of the structure rotates. <br/> | ||
The cavities would contain anions and solvent that are not shown in this crystal structure as they'd be freely moving and randomly distributed. | The cavities would contain anions and solvent that are not shown in this crystal structure as they'd be freely moving and randomly distributed. | ||
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<jmol> | <jmol> | ||
<jmolButton> | <jmolButton> | ||
| - | <script>load /wiki/scripts/10/1092924/ | + | <script>load /wiki/scripts/10/1092924/Csd_entry_jarmeu_basics/2.spt</script> |
<text>Restore Default Scene</text> | <text>Restore Default Scene</text> | ||
</jmolButton> | </jmolButton> | ||
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</StructureSection> | </StructureSection> | ||
| - | ==Technical Details== | ||
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| - | The views featuring the 1x1x3 set and the 1x3x3 plane were built using [https://chemapps.stolaf.edu/jmol/jsmol/jcse/explore.htm the Jmol Crystal Symmetry Explorer] to examine [https://www.ccdc.cam.ac.uk/structures/Search?Ccdcid=JARMEU&DatabaseToSearch=CSD CSD Entry: JARMEU]. | ||
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==References== | ==References== | ||
<references/> | <references/> | ||
Revision as of 18:38, 12 October 2025
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References
- ↑ B.F. Hoskins and R. Robson. 1989. Infinite polymeric frameworks consisting of three dimensionally linked rod-like segments. Journal of the American Chemical Society, v111, pg. 5962-5964, |DOI: 10.1021/ja00197a079
- ↑ https://www.nobelprize.org/uploads/2025/10/advanced-chemistryprize2025.pdf
