AI Article Synopsis
- A series of new sulfur heteroarenes that are similar in electronic structure to dibenzo[g,p]chrysene were created using a two-step photocyclization process.
- The first step produces intermediate sulfur heteroarenes, which are comparable to phenanthrene, efficiently, while the second step is more effective if one of the aryl groups is thienyl, enhancing electron density during the reaction.
- However, most of these new compounds have low solubility in common solvents and do not exhibit enhanced electron donor capabilities typical of heteroaromatic compounds.
Article Abstract
A series of new sulfur heteroarenes, isoelectronic with dibenzo[g,p]chrysene, have been prepared by double photocyclization of the corresponding tetraaryl substituted ethenes. The first step proceeds efficiently in each case, and the corresponding intermediate sulfur heteroarenes, isoelectronic with phenanthrene, have been isolated. The second ring closure is only efficient when one of the participating aryl substituents is thienyl, which thus manifests a higher electron density on the carbon atom involved in the excited singlet state reaction. Most of the new compounds are of minimal solubility in common solvents and do not display improved electron donor properties otherwise commonly found among heteroaromatics.
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| http://dx.doi.org/10.1021/jo960022x | DOI Listing |
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Synthesis of New Sulfur Heteroaromatics Isoelectronic with Dibenzo[g,p]chrysene by Photocyclization of Thienyl- and Phenyl-Substituted Ethenes.
J Org Chem
October 1996
Department of Chemistry, University of Copenhagen, Symbion, Fruebjergvej 3, DK-2100 Copenhagen, Denmark.
Article Synopsis
- A series of new sulfur heteroarenes that are similar in electronic structure to dibenzo[g,p]chrysene were created using a two-step photocyclization process.
- The first step produces intermediate sulfur heteroarenes, which are comparable to phenanthrene, efficiently, while the second step is more effective if one of the aryl groups is thienyl, enhancing electron density during the reaction.
- However, most of these new compounds have low solubility in common solvents and do not exhibit enhanced electron donor capabilities typical of heteroaromatic compounds.
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