Chiral Softballs: Synthesis and Molecular Recognition Properties
Studies on the different congeners of the softball were undertaken to explore structural variants for enantioselective encapsulation. Two different spacer elements in the monomeric subunit render the dimeric softball chiral although the monomer itself is achiral. The dimers represent capsules with dissymmetric cavities with volumes ranging from 190 to 390 Å3. The cavities are distorted spheres, and asymmetric guests, such as naturally occurring terpenes, generally prefer one enantiomer of the capsule to its mirror image. The selectivities are moderate (up to 4:1). The complexation studies show that the host capsules are flexible enough to arrange themselves comfortably around a guest but still maintain enough rigidity to be influenced by the occupancy of a chiral guest. The enantiomeric capsules can interconvert (racemize) by dissociation and recombination of their subunits.
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| Format: | artículo biblioteca |
| Language: | English |
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American Chemical Society
2001-05-10
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| Subjects: | Monomers, Encapsulation, Noncovalent interactions, Cavities, Selectivity, |
| Online Access: | http://hdl.handle.net/10261/211765 |
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dig-ipna-es-10261-2117652020-05-21T01:11:55Z Chiral Softballs: Synthesis and Molecular Recognition Properties Rivera, José M. Martín, Tomás Rebek, Julius Jr. Monomers Encapsulation Noncovalent interactions Cavities Selectivity Studies on the different congeners of the softball were undertaken to explore structural variants for enantioselective encapsulation. Two different spacer elements in the monomeric subunit render the dimeric softball chiral although the monomer itself is achiral. The dimers represent capsules with dissymmetric cavities with volumes ranging from 190 to 390 Å3. The cavities are distorted spheres, and asymmetric guests, such as naturally occurring terpenes, generally prefer one enantiomer of the capsule to its mirror image. The selectivities are moderate (up to 4:1). The complexation studies show that the host capsules are flexible enough to arrange themselves comfortably around a guest but still maintain enough rigidity to be influenced by the occupancy of a chiral guest. The enantiomeric capsules can interconvert (racemize) by dissociation and recombination of their subunits. Peer reviewed 2020-05-20T18:00:11Z 2020-05-20T18:00:11Z 2001-05-10 artículo http://purl.org/coar/resource_type/c_6501 Journal of the American Chemical Society 123(22): 5213–5220 0002-7863 http://hdl.handle.net/10261/211765 10.1021/ja004080i 1520-5126 en Postprint https://doi.org/10.1021/ja004080i No none American Chemical Society |
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| libraryname |
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| language |
English |
| topic |
Monomers Encapsulation Noncovalent interactions Cavities Selectivity Monomers Encapsulation Noncovalent interactions Cavities Selectivity |
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Monomers Encapsulation Noncovalent interactions Cavities Selectivity Monomers Encapsulation Noncovalent interactions Cavities Selectivity Rivera, José M. Martín, Tomás Rebek, Julius Jr. Chiral Softballs: Synthesis and Molecular Recognition Properties |
| description |
Studies on the different congeners of the softball were undertaken to explore structural variants for enantioselective encapsulation. Two different spacer elements in the monomeric subunit render the dimeric softball chiral although the monomer itself is achiral. The dimers represent capsules with dissymmetric cavities with volumes ranging from 190 to 390 Å3. The cavities are distorted spheres, and asymmetric guests, such as naturally occurring terpenes, generally prefer one enantiomer of the capsule to its mirror image. The selectivities are moderate (up to 4:1). The complexation studies show that the host capsules are flexible enough to arrange themselves comfortably around a guest but still maintain enough rigidity to be influenced by the occupancy of a chiral guest. The enantiomeric capsules can interconvert (racemize) by dissociation and recombination of their subunits. |
| format |
artículo |
| topic_facet |
Monomers Encapsulation Noncovalent interactions Cavities Selectivity |
| author |
Rivera, José M. Martín, Tomás Rebek, Julius Jr. |
| author_facet |
Rivera, José M. Martín, Tomás Rebek, Julius Jr. |
| author_sort |
Rivera, José M. |
| title |
Chiral Softballs: Synthesis and Molecular Recognition Properties |
| title_short |
Chiral Softballs: Synthesis and Molecular Recognition Properties |
| title_full |
Chiral Softballs: Synthesis and Molecular Recognition Properties |
| title_fullStr |
Chiral Softballs: Synthesis and Molecular Recognition Properties |
| title_full_unstemmed |
Chiral Softballs: Synthesis and Molecular Recognition Properties |
| title_sort |
chiral softballs: synthesis and molecular recognition properties |
| publisher |
American Chemical Society |
| publishDate |
2001-05-10 |
| url |
http://hdl.handle.net/10261/211765 |
| work_keys_str_mv |
AT riverajosem chiralsoftballssynthesisandmolecularrecognitionproperties AT martintomas chiralsoftballssynthesisandmolecularrecognitionproperties AT rebekjuliusjr chiralsoftballssynthesisandmolecularrecognitionproperties |
| _version_ |
1777669844997505024 |