Reorganization of Self-Assembled Dipeptide Porphyrin J-Aggregates in Water–Ethanol Mixtures

The self-assembly of a neutral meso-methoxyphenylporphyrin functionalized with a dipeptide glycilglycine substituent (MGG) in water and in water–ethanol mixtures was studied by absorption and fluorescence spectroscopy. In water, hydrophobic interactions and the noncovalent intermolecular hydrogen bo...

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Veröffentlicht in:	The journal of physical chemistry. B 2012-03, Vol.116 (8), p.2396-2404
Hauptverfasser:	Teixeira, Raquel, Andrade, Suzana M, Vaz Serra, Vanda, Paulo, Pedro M. R, Sánchez-Coronilla, Antonio, Neves, Maria G. P. M. S, Cavaleiro, José A. S, Costa, Sílvia M. B
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Schlagworte:	Dipeptides - chemical synthesis Dipeptides - chemistry Ethanol Ethanol - chemistry Ethyl alcohol Fluorescence Formations Hydrogen bonding Light scattering Molecular Structure Porphyrins Porphyrins - chemical synthesis Porphyrins - chemistry Self assembly Water - chemistry
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container_issue	8
container_start_page	2396
container_title	The journal of physical chemistry. B
container_volume	116
creator	Teixeira, Raquel Andrade, Suzana M Vaz Serra, Vanda Paulo, Pedro M. R Sánchez-Coronilla, Antonio Neves, Maria G. P. M. S Cavaleiro, José A. S Costa, Sílvia M. B
description	The self-assembly of a neutral meso-methoxyphenylporphyrin functionalized with a dipeptide glycilglycine substituent (MGG) in water and in water–ethanol mixtures was studied by absorption and fluorescence spectroscopy. In water, hydrophobic interactions and the noncovalent intermolecular hydrogen bonding between the terminal carboxylate group of one porphyrin and the hydrogen atoms of the pyrrolic nitrogens of another porphyrin originate nonspecific disorganized H- and J-aggregates. The addition of ethanol (0.1–25% v/v) to the water creates small clusters within which porphyrin J-aggregates reorganize as revealed by a narrow intense band detected by the Rayleigh light scattering (RLS) at 443 nm. Similar phenomenology is detected in SDS premicellar aggregates. Computational DFT calculations of a model dimer formation stabilized via intermolecular hydrogen bonding estimate an energy gain of −22 kJ mol–1 and a center-to-center and interplane distances between porphyrin moieties of 16.8 and 3.7 Å, respectively. The kinetics of the J-aggregate formation could be fitted with a time-dependent model, and an activation energy of 96 kJ mol–1 was estimated. The aggregate's morphology of MGG was followed by transmission electron microscopy (TEM) which showed rod-type structures of 5–8 μm evolving to spherical particles with increased ethanol content. Similar images and sizes were obtained in analogous samples using fluorescence lifetime imaging microscopy (FLIM) and dynamic light scattering (DLS). The formation of excitonically coupled supramolecular MGG structures of brickwork or staircase types is proposed in these water–ethanol mixtures.
doi_str_mv	10.1021/jp2115719
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The addition of ethanol (0.1–25% v/v) to the water creates small clusters within which porphyrin J-aggregates reorganize as revealed by a narrow intense band detected by the Rayleigh light scattering (RLS) at 443 nm. Similar phenomenology is detected in SDS premicellar aggregates. Computational DFT calculations of a model dimer formation stabilized via intermolecular hydrogen bonding estimate an energy gain of −22 kJ mol–1 and a center-to-center and interplane distances between porphyrin moieties of 16.8 and 3.7 Å, respectively. The kinetics of the J-aggregate formation could be fitted with a time-dependent model, and an activation energy of 96 kJ mol–1 was estimated. The aggregate's morphology of MGG was followed by transmission electron microscopy (TEM) which showed rod-type structures of 5–8 μm evolving to spherical particles with increased ethanol content. Similar images and sizes were obtained in analogous samples using fluorescence lifetime imaging microscopy (FLIM) and dynamic light scattering (DLS). The formation of excitonically coupled supramolecular MGG structures of brickwork or staircase types is proposed in these water–ethanol mixtures.</description><identifier>ISSN: 1520-6106</identifier><identifier>EISSN: 1520-5207</identifier><identifier>DOI: 10.1021/jp2115719</identifier><identifier>PMID: 22292964</identifier><language>eng</language><publisher>United States: American Chemical Society</publisher><subject>Dipeptides - chemical synthesis ; Dipeptides - chemistry ; Ethanol ; Ethanol - chemistry ; Ethyl alcohol ; Fluorescence ; Formations ; Hydrogen bonding ; Light scattering ; Molecular Structure ; Porphyrins ; Porphyrins - chemical synthesis ; Porphyrins - chemistry ; Self assembly ; Water - chemistry</subject><ispartof>The journal of physical chemistry. 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The addition of ethanol (0.1–25% v/v) to the water creates small clusters within which porphyrin J-aggregates reorganize as revealed by a narrow intense band detected by the Rayleigh light scattering (RLS) at 443 nm. Similar phenomenology is detected in SDS premicellar aggregates. Computational DFT calculations of a model dimer formation stabilized via intermolecular hydrogen bonding estimate an energy gain of −22 kJ mol–1 and a center-to-center and interplane distances between porphyrin moieties of 16.8 and 3.7 Å, respectively. The kinetics of the J-aggregate formation could be fitted with a time-dependent model, and an activation energy of 96 kJ mol–1 was estimated. The aggregate's morphology of MGG was followed by transmission electron microscopy (TEM) which showed rod-type structures of 5–8 μm evolving to spherical particles with increased ethanol content. Similar images and sizes were obtained in analogous samples using fluorescence lifetime imaging microscopy (FLIM) and dynamic light scattering (DLS). The formation of excitonically coupled supramolecular MGG structures of brickwork or staircase types is proposed in these water–ethanol mixtures.</description><subject>Dipeptides - chemical synthesis</subject><subject>Dipeptides - chemistry</subject><subject>Ethanol</subject><subject>Ethanol - chemistry</subject><subject>Ethyl alcohol</subject><subject>Fluorescence</subject><subject>Formations</subject><subject>Hydrogen bonding</subject><subject>Light scattering</subject><subject>Molecular Structure</subject><subject>Porphyrins</subject><subject>Porphyrins - chemical synthesis</subject><subject>Porphyrins - chemistry</subject><subject>Self assembly</subject><subject>Water - chemistry</subject><issn>1520-6106</issn><issn>1520-5207</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2012</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kM1Kw0AQgBdRbK0efAHJRdRDdHeT3WyOpdY_KooWPEnYJLNpSpKNuwlYT76Db-iTmNLak3gYZgY-vsOH0CHB5wRTcjGvKSEsIOEW6hNGsdtNsL2-OcG8h_asnWNMGRV8F_UopSENud9Hr0-gTSar_EM2ua4crZxnKJQ7tBbKuIDUucxrqJs8BedRm3q2MHnl3LnDLDOQyQas0_0v3WG-P7_GzUxWunDu8_emNWD30Y6ShYWD9R6g6dV4OrpxJw_Xt6PhxJWeHzSuLzChIhR-CpCkNFAsDWPBSZB6kiqZCuorTwmRBCz2ORYJZXHASSKV4r5g3gCdrLS10W8t2CYqc5tAUcgKdGujkHLCMAvDjjz9lyQB8xjxKVlKz1ZoYrS1BlRUm7yUZhERHC2zR5vsHXu01rZxCemG_O3cAccrQCY2muvWVF2OP0Q_LimJYw</recordid><startdate>20120301</startdate><enddate>20120301</enddate><creator>Teixeira, Raquel</creator><creator>Andrade, Suzana M</creator><creator>Vaz Serra, Vanda</creator><creator>Paulo, Pedro M. 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B</addtitle><date>2012-03-01</date><risdate>2012</risdate><volume>116</volume><issue>8</issue><spage>2396</spage><epage>2404</epage><pages>2396-2404</pages><issn>1520-6106</issn><eissn>1520-5207</eissn><abstract>The self-assembly of a neutral meso-methoxyphenylporphyrin functionalized with a dipeptide glycilglycine substituent (MGG) in water and in water–ethanol mixtures was studied by absorption and fluorescence spectroscopy. In water, hydrophobic interactions and the noncovalent intermolecular hydrogen bonding between the terminal carboxylate group of one porphyrin and the hydrogen atoms of the pyrrolic nitrogens of another porphyrin originate nonspecific disorganized H- and J-aggregates. The addition of ethanol (0.1–25% v/v) to the water creates small clusters within which porphyrin J-aggregates reorganize as revealed by a narrow intense band detected by the Rayleigh light scattering (RLS) at 443 nm. Similar phenomenology is detected in SDS premicellar aggregates. Computational DFT calculations of a model dimer formation stabilized via intermolecular hydrogen bonding estimate an energy gain of −22 kJ mol–1 and a center-to-center and interplane distances between porphyrin moieties of 16.8 and 3.7 Å, respectively. The kinetics of the J-aggregate formation could be fitted with a time-dependent model, and an activation energy of 96 kJ mol–1 was estimated. The aggregate's morphology of MGG was followed by transmission electron microscopy (TEM) which showed rod-type structures of 5–8 μm evolving to spherical particles with increased ethanol content. Similar images and sizes were obtained in analogous samples using fluorescence lifetime imaging microscopy (FLIM) and dynamic light scattering (DLS). The formation of excitonically coupled supramolecular MGG structures of brickwork or staircase types is proposed in these water–ethanol mixtures.</abstract><cop>United States</cop><pub>American Chemical Society</pub><pmid>22292964</pmid><doi>10.1021/jp2115719</doi><tpages>9</tpages></addata></record>
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subjects	Dipeptides - chemical synthesis Dipeptides - chemistry Ethanol Ethanol - chemistry Ethyl alcohol Fluorescence Formations Hydrogen bonding Light scattering Molecular Structure Porphyrins Porphyrins - chemical synthesis Porphyrins - chemistry Self assembly Water - chemistry
title	Reorganization of Self-Assembled Dipeptide Porphyrin J-Aggregates in Water–Ethanol Mixtures
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