Solvatochromism of pyranine-derived photoacidsElectronic supplementary information (ESI) available: Detailed description of the synthesis of methylated compounds. Lippert-Mataga plots of methylated compounds. Crystal structure of compound 2b. Correlation plots of photoacids for Kamlet-Taft and Catalán analysis. Plot of solute parameters vs. anion fluorescence percentage. Absorption and excitation spectra of 1a and 1e. Results of the theoretical calculations and molecular orbitals of MPTA and MPT
Photoacidity is frequently found in aromatic alcohols where the equilibrium dissociation constant increases by some orders of magnitude upon electronic excitation. In this study we investigated the solvatochromism of a family of recently synthesized super-photoacids and their methylated counterparts...
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creator | Spies, Christian Finkler, Björn Acar, Nursel Jung, Gregor |
description | Photoacidity is frequently found in aromatic alcohols where the equilibrium dissociation constant increases by some orders of magnitude upon electronic excitation. In this study we investigated the solvatochromism of a family of recently synthesized super-photoacids and their methylated counterparts based on pyrene. The chemical similarity of these molecules on the one hand and their differing photoacidity with p
K
a
* values between −0.8 and −3.9 on the other allow for gaining insights into the mechanisms contributing to excited-state proton transfer. Three different solvent scales, namely Lippert-Mataga, Kamlet-Taft and Catalán, were independently employed in this study and gave consistent results. We found the strongest correlation of the excited-state acidity with the dipolarity of the excited state,
p
em
ranging from −1775 cm
−1
to −2500 cm
−1
, and a concomitant change in the permanent dipole moment of roughly 14 Debye. Spectral changes due to varying basicity of the solvent, which probes the conjugated property of the solute, are found to be less indicative of the graduation of excited-state acidity,
i.e. b
em
values between −700 and −1200 cm
−1
. The solvent acidity is the only parameter with a distinct influence on the electronic spectra of the deprotonated species. The low values of
a
em
∼ 400 cm
−1
, which are 3-4× smaller than
a
abs
and
a
exc
, indicate the low basicity of these species in the excited state. Triggered by semiempirical theoretical calculations, the energetic splitting between the two lowest excited states could be related to the excited-state acidity and points to alterations in the electronic mixing of locally excited and charge-transfer states, caused by the substituents. Differences between the threefold negatively charged pyranine and the new neutral photoacids are also discussed.
The solvatochromism of a series of newly synthesized neutral photoacids was analysed to get insights into the photoacidity phenomenon in pyranine-based photoacids. |
doi_str_mv | 10.1039/c3cp53082e |
format | Article |
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K
a
* values between −0.8 and −3.9 on the other allow for gaining insights into the mechanisms contributing to excited-state proton transfer. Three different solvent scales, namely Lippert-Mataga, Kamlet-Taft and Catalán, were independently employed in this study and gave consistent results. We found the strongest correlation of the excited-state acidity with the dipolarity of the excited state,
p
em
ranging from −1775 cm
−1
to −2500 cm
−1
, and a concomitant change in the permanent dipole moment of roughly 14 Debye. Spectral changes due to varying basicity of the solvent, which probes the conjugated property of the solute, are found to be less indicative of the graduation of excited-state acidity,
i.e. b
em
values between −700 and −1200 cm
−1
. The solvent acidity is the only parameter with a distinct influence on the electronic spectra of the deprotonated species. The low values of
a
em
∼ 400 cm
−1
, which are 3-4× smaller than
a
abs
and
a
exc
, indicate the low basicity of these species in the excited state. Triggered by semiempirical theoretical calculations, the energetic splitting between the two lowest excited states could be related to the excited-state acidity and points to alterations in the electronic mixing of locally excited and charge-transfer states, caused by the substituents. Differences between the threefold negatively charged pyranine and the new neutral photoacids are also discussed.
The solvatochromism of a series of newly synthesized neutral photoacids was analysed to get insights into the photoacidity phenomenon in pyranine-based photoacids.</description><identifier>ISSN: 1463-9076</identifier><identifier>EISSN: 1463-9084</identifier><identifier>DOI: 10.1039/c3cp53082e</identifier><language>eng</language><creationdate>2013-10</creationdate><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27924,27925</link.rule.ids></links><search><creatorcontrib>Spies, Christian</creatorcontrib><creatorcontrib>Finkler, Björn</creatorcontrib><creatorcontrib>Acar, Nursel</creatorcontrib><creatorcontrib>Jung, Gregor</creatorcontrib><title>Solvatochromism of pyranine-derived photoacidsElectronic supplementary information (ESI) available: Detailed description of the synthesis of methylated compounds. Lippert-Mataga plots of methylated compounds. Crystal structure of compound 2b. Correlation plots of photoacids for Kamlet-Taft and Catalán analysis. Plot of solute parameters vs. anion fluorescence percentage. Absorption and excitation spectra of 1a and 1e. Results of the theoretical calculations and molecular orbitals of MPTA and MPT</title><description>Photoacidity is frequently found in aromatic alcohols where the equilibrium dissociation constant increases by some orders of magnitude upon electronic excitation. In this study we investigated the solvatochromism of a family of recently synthesized super-photoacids and their methylated counterparts based on pyrene. The chemical similarity of these molecules on the one hand and their differing photoacidity with p
K
a
* values between −0.8 and −3.9 on the other allow for gaining insights into the mechanisms contributing to excited-state proton transfer. Three different solvent scales, namely Lippert-Mataga, Kamlet-Taft and Catalán, were independently employed in this study and gave consistent results. We found the strongest correlation of the excited-state acidity with the dipolarity of the excited state,
p
em
ranging from −1775 cm
−1
to −2500 cm
−1
, and a concomitant change in the permanent dipole moment of roughly 14 Debye. Spectral changes due to varying basicity of the solvent, which probes the conjugated property of the solute, are found to be less indicative of the graduation of excited-state acidity,
i.e. b
em
values between −700 and −1200 cm
−1
. The solvent acidity is the only parameter with a distinct influence on the electronic spectra of the deprotonated species. The low values of
a
em
∼ 400 cm
−1
, which are 3-4× smaller than
a
abs
and
a
exc
, indicate the low basicity of these species in the excited state. Triggered by semiempirical theoretical calculations, the energetic splitting between the two lowest excited states could be related to the excited-state acidity and points to alterations in the electronic mixing of locally excited and charge-transfer states, caused by the substituents. Differences between the threefold negatively charged pyranine and the new neutral photoacids are also discussed.
The solvatochromism of a series of newly synthesized neutral photoacids was analysed to get insights into the photoacidity phenomenon in pyranine-based photoacids.</description><issn>1463-9076</issn><issn>1463-9084</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2013</creationdate><recordtype>article</recordtype><sourceid/><recordid>eNqFUk1v1EAMDQgkyseFO5K5wSFL0rSl5VYti0BQqaJ7X3knTnfQfMnjrJqfw2_hN3HHSaC9lcNoPH7Pb549UxQv62pRV83ZO9OYdNxUp4f0sDioj06a8qw6PXp0G78_eVI8zflHVVX1cd0cPPh9Fd0eJZodR2-zh9hBGhiDDVS2xHZPLaRdlIjGtnnlyAjHYA3kPiVHnoIgD2BDF9mj2Bjgzerqy1vAPVqHW0cf4COJxirUUjZs08TSi2RHkIegW7Z5THiS3eBQlGqiT7EPbV7AN5sSsZQXKHiNkFyUe9hLHrKggyzcG-mZRuo_HA63yojM5Gavt2J3PYJ2Al_RO5JyjZ0Aat1S73a_fgY9oBvU7gIutXSszNH1QpCQUR0RZ9grqhNU-c71kbVpCkYZxGYc1zUt4HybI8-DGOXpxliZHeU0jhhH5RonsFb-d8q9m52OU9OlumKNNqrL9HM7eeL7qK-kGYbIW5V1U9nF5fp8gjV4XjzuNE0v_u7PilefVuvl55Kz2SS2Xp90c_eXmv_jr-_DN6ntmj9Zg-lu</recordid><startdate>20131030</startdate><enddate>20131030</enddate><creator>Spies, Christian</creator><creator>Finkler, Björn</creator><creator>Acar, Nursel</creator><creator>Jung, Gregor</creator><scope/></search><sort><creationdate>20131030</creationdate><title>Solvatochromism of pyranine-derived photoacidsElectronic supplementary information (ESI) available: Detailed description of the synthesis of methylated compounds. Lippert-Mataga plots of methylated compounds. Crystal structure of compound 2b. Correlation plots of photoacids for Kamlet-Taft and Catalán analysis. Plot of solute parameters vs. anion fluorescence percentage. Absorption and excitation spectra of 1a and 1e. Results of the theoretical calculations and molecular orbitals of MPTA and MPT</title><author>Spies, Christian ; Finkler, Björn ; Acar, Nursel ; Jung, Gregor</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-rsc_primary_c3cp53082e3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2013</creationdate><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Spies, Christian</creatorcontrib><creatorcontrib>Finkler, Björn</creatorcontrib><creatorcontrib>Acar, Nursel</creatorcontrib><creatorcontrib>Jung, Gregor</creatorcontrib></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Spies, Christian</au><au>Finkler, Björn</au><au>Acar, Nursel</au><au>Jung, Gregor</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Solvatochromism of pyranine-derived photoacidsElectronic supplementary information (ESI) available: Detailed description of the synthesis of methylated compounds. Lippert-Mataga plots of methylated compounds. Crystal structure of compound 2b. Correlation plots of photoacids for Kamlet-Taft and Catalán analysis. Plot of solute parameters vs. anion fluorescence percentage. Absorption and excitation spectra of 1a and 1e. Results of the theoretical calculations and molecular orbitals of MPTA and MPT</atitle><date>2013-10-30</date><risdate>2013</risdate><volume>15</volume><issue>45</issue><spage>19893</spage><epage>1995</epage><pages>19893-1995</pages><issn>1463-9076</issn><eissn>1463-9084</eissn><abstract>Photoacidity is frequently found in aromatic alcohols where the equilibrium dissociation constant increases by some orders of magnitude upon electronic excitation. In this study we investigated the solvatochromism of a family of recently synthesized super-photoacids and their methylated counterparts based on pyrene. The chemical similarity of these molecules on the one hand and their differing photoacidity with p
K
a
* values between −0.8 and −3.9 on the other allow for gaining insights into the mechanisms contributing to excited-state proton transfer. Three different solvent scales, namely Lippert-Mataga, Kamlet-Taft and Catalán, were independently employed in this study and gave consistent results. We found the strongest correlation of the excited-state acidity with the dipolarity of the excited state,
p
em
ranging from −1775 cm
−1
to −2500 cm
−1
, and a concomitant change in the permanent dipole moment of roughly 14 Debye. Spectral changes due to varying basicity of the solvent, which probes the conjugated property of the solute, are found to be less indicative of the graduation of excited-state acidity,
i.e. b
em
values between −700 and −1200 cm
−1
. The solvent acidity is the only parameter with a distinct influence on the electronic spectra of the deprotonated species. The low values of
a
em
∼ 400 cm
−1
, which are 3-4× smaller than
a
abs
and
a
exc
, indicate the low basicity of these species in the excited state. Triggered by semiempirical theoretical calculations, the energetic splitting between the two lowest excited states could be related to the excited-state acidity and points to alterations in the electronic mixing of locally excited and charge-transfer states, caused by the substituents. Differences between the threefold negatively charged pyranine and the new neutral photoacids are also discussed.
The solvatochromism of a series of newly synthesized neutral photoacids was analysed to get insights into the photoacidity phenomenon in pyranine-based photoacids.</abstract><doi>10.1039/c3cp53082e</doi><tpages>13</tpages></addata></record> |
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source | Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection |
title | Solvatochromism of pyranine-derived photoacidsElectronic supplementary information (ESI) available: Detailed description of the synthesis of methylated compounds. Lippert-Mataga plots of methylated compounds. Crystal structure of compound 2b. Correlation plots of photoacids for Kamlet-Taft and Catalán analysis. Plot of solute parameters vs. anion fluorescence percentage. Absorption and excitation spectra of 1a and 1e. Results of the theoretical calculations and molecular orbitals of MPTA and MPT |
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