Rigidity-stability relationship in interlocked model complexes containing phenylene-ethynylene-based disubstituted naphthalene and benzene
Structural rigidity has been found to be advantageous for molecules if they are to find applications in functioning molecular devices. In the search for an understanding of the relationship between the rigidity and complex stability in mechanically interlocked compounds, the binding abilities of two...
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2011
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sg-ntu-dr.10356-937982020-03-07T12:31:29Z Rigidity-stability relationship in interlocked model complexes containing phenylene-ethynylene-based disubstituted naphthalene and benzene Goddard III, William A. Yoon, Il. Miljanić, Ognjen Š. Benítez, Diego Zhao, Yanli Tkatchouk, Ekaterina Stoddart, J. Fraser School of Physical and Mathematical Sciences DRNTU::Science::Chemistry::Crystallography::Crystal structure and growth Structural rigidity has been found to be advantageous for molecules if they are to find applications in functioning molecular devices. In the search for an understanding of the relationship between the rigidity and complex stability in mechanically interlocked compounds, the binding abilities of two π-electron-rich model compounds (2 and 4), where rigidity is introduced in the form of phenylacetylene units, toward the π-electron deficient tetracationic cyclophane, cyclobis(paraquat-p-phenylene) (CBPQT4+), were investigated. 1,4-Bis(2-(2-methoxyethoxy)ethoxy)-2,5-bis(2-phenylethynyl)benzene 2 and 1,5-bis(2-(2-methoxyethoxy)ethoxy)-2,6-bis(2-phenylethynyl)naphthalene 4 were synthesized, respectively, from the appropriate precursor dibromides 1 and 3 of benzene and naphthalene carrying two methoxyethoxyethoxy side chains. The rigid nature of the compounds 2 and 4 is reflected in the reduced stabilities of their 1:1 complexes with CBPQT4+. Binding constants for both 2 (100 M−1) and 4 (140 M−1) toward CBPQT4+ were obtained by isothermal titration microcalorimetry (ITC) in MeCN at 25 °C. Compounds 1−4 were characterized in the solid state by X-ray crystallography. The stabilization within and beyond these molecules is achieved by a combination of intra- and intermolecular [C−H···O], [C−H···π], and [π−π] stacking interactions. The diethyleneglycol chains present in compounds 1−4 are folded as a consequence of both intra- and intermolecular hydrogen bonds. The preorganized structures in both precursors 1 and 3 are repeated in both model compounds 2 and 4. In the structures of compounds 2 and 4, the geometry of the rigid backbone is differentthe two terminal phenyl groups are twisted with respect to the central benzenoid ring in compound 2 and roughly perpendicular to the plane central naphthalene core in compound 4. To understand the significantly decreased stabilities of these complexes toward rigid guest molecules, relative to more flexible systems, we performed density functional theory (DFT) calculations using the newly developed M06-suite of density functionals. We conclude that the reduced binding abilities are a consequence of electronic and not steric factors, originating from the extended delocalization of the aromatic system. None of the above 2011-09-13T04:57:40Z 2019-12-06T18:45:41Z 2011-09-13T04:57:40Z 2019-12-06T18:45:41Z 2009 2009 Journal Article Yoon, I., Benítez, D., Miljanić, O. S., Zhao, Y. L., Tkatchouk, E., Goddard, W. A., & Stoddart, J. F. (2009). Rigidity−Stability Relationship in Interlocked Model Complexes Containing Phenylene-Ethynylene-Based Disubstituted Naphthalene and Benzene. Crystal Growth & Design, 9(5), 2300-2309. 1528-7483 https://hdl.handle.net/10356/93798 http://hdl.handle.net/10220/7044 10.1021/cg801106h 159749 en Crystal growth & design © 2009 American Chemical Society 10 p. |
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DRNTU::Science::Chemistry::Crystallography::Crystal structure and growth Goddard III, William A. Yoon, Il. Miljanić, Ognjen Š. Benítez, Diego Zhao, Yanli Tkatchouk, Ekaterina Stoddart, J. Fraser Rigidity-stability relationship in interlocked model complexes containing phenylene-ethynylene-based disubstituted naphthalene and benzene |
| description |
Structural rigidity has been found to be advantageous for molecules if they are to find applications in functioning molecular devices. In the search for an understanding of the relationship between the rigidity and complex stability in mechanically interlocked compounds, the binding abilities of two π-electron-rich model compounds (2 and 4), where rigidity is introduced in the form of phenylacetylene units, toward the π-electron deficient tetracationic cyclophane, cyclobis(paraquat-p-phenylene) (CBPQT4+), were investigated. 1,4-Bis(2-(2-methoxyethoxy)ethoxy)-2,5-bis(2-phenylethynyl)benzene 2 and 1,5-bis(2-(2-methoxyethoxy)ethoxy)-2,6-bis(2-phenylethynyl)naphthalene 4 were synthesized, respectively, from the appropriate precursor dibromides 1 and 3 of benzene and naphthalene carrying two methoxyethoxyethoxy side chains. The rigid nature of the compounds 2 and 4 is reflected in the reduced stabilities of their 1:1 complexes with CBPQT4+. Binding constants for both 2 (100 M−1) and 4 (140 M−1) toward CBPQT4+ were obtained by isothermal titration microcalorimetry (ITC) in MeCN at 25 °C. Compounds 1−4 were characterized in the solid state by X-ray crystallography. The stabilization within and beyond these molecules is achieved by a combination of intra- and intermolecular [C−H···O], [C−H···π], and [π−π] stacking interactions. The diethyleneglycol chains present in compounds 1−4 are folded as a consequence of both intra- and intermolecular hydrogen bonds. The preorganized structures in both precursors 1 and 3 are repeated in both model compounds 2 and 4. In the structures of compounds 2 and 4, the geometry of the rigid backbone is differentthe two terminal phenyl groups are twisted with respect to the central benzenoid ring in compound 2 and roughly perpendicular to the plane central naphthalene core in compound 4. To understand the significantly decreased stabilities of these complexes toward rigid guest molecules, relative to more flexible systems, we performed density functional theory (DFT) calculations using the newly developed M06-suite of density functionals. We conclude that the reduced binding abilities are a consequence of electronic and not steric factors, originating from the extended delocalization of the aromatic system. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Goddard III, William A. Yoon, Il. Miljanić, Ognjen Š. Benítez, Diego Zhao, Yanli Tkatchouk, Ekaterina Stoddart, J. Fraser |
| format |
Article |
| author |
Goddard III, William A. Yoon, Il. Miljanić, Ognjen Š. Benítez, Diego Zhao, Yanli Tkatchouk, Ekaterina Stoddart, J. Fraser |
| author_sort |
Goddard III, William A. |
| title |
Rigidity-stability relationship in interlocked model complexes containing phenylene-ethynylene-based disubstituted naphthalene and benzene |
| title_short |
Rigidity-stability relationship in interlocked model complexes containing phenylene-ethynylene-based disubstituted naphthalene and benzene |
| title_full |
Rigidity-stability relationship in interlocked model complexes containing phenylene-ethynylene-based disubstituted naphthalene and benzene |
| title_fullStr |
Rigidity-stability relationship in interlocked model complexes containing phenylene-ethynylene-based disubstituted naphthalene and benzene |
| title_full_unstemmed |
Rigidity-stability relationship in interlocked model complexes containing phenylene-ethynylene-based disubstituted naphthalene and benzene |
| title_sort |
rigidity-stability relationship in interlocked model complexes containing phenylene-ethynylene-based disubstituted naphthalene and benzene |
| publishDate |
2011 |
| url |
https://hdl.handle.net/10356/93798 http://hdl.handle.net/10220/7044 |
| _version_ |
1681045948851027968 |