Self-Assembly of Asymmetric Fan-Shaped Dendrimers with Different Generation Numbers at the Air−Water Interface

Monolayer formation of two dendrimers containing a hydrophilic core group (COOH) and hydrophobic peripheral groups (anthracene and aryl ether tail groups), 4-{10-[4-(3,5-bis-benzyloxy)-phenyl]-anthracen-9-yl}-benzoic acid (G1) and 4-(10-{4-[3,5-bis-(3,5-bis-benzyloxy)-benzyloxy]-phenyl}-anthracen-9-...

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Veröffentlicht in:	Langmuir 2008-11, Vol.24 (21), p.12426-12430
Hauptverfasser:	Lee, Jisun, Kim, Kyungbae, Lee, Songyi, Kim, Hwan Kyu, Sohn, Daewon
Format:	Artikel
Sprache:	eng
Schlagworte:	Chemistry Colloidal state and disperse state Exact sciences and technology General and physical chemistry Interfaces: Adsorption, Reactions, Films, Forces Langmuir blodgett films Surface physical chemistry
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container_end_page	12430
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creator	Lee, Jisun Kim, Kyungbae Lee, Songyi Kim, Hwan Kyu Sohn, Daewon
description	Monolayer formation of two dendrimers containing a hydrophilic core group (COOH) and hydrophobic peripheral groups (anthracene and aryl ether tail groups), 4-{10-[4-(3,5-bis-benzyloxy)-phenyl]-anthracen-9-yl}-benzoic acid (G1) and 4-(10-{4-[3,5-bis-(3,5-bis-benzyloxy)-benzyloxy]-phenyl}-anthracen-9-yl)-benzoic acid (G2), were studied. To understand the mechanism of the self-assembly of these molecules, we measured the surface pressure−surface area (Π−A) isotherm and investigated the surface texture of Langmuir−Blodgett monolayers transferred onto hydrophilic silicon wafers. Both dendrimers form circular domains at the onset point of surface pressure as a result of the difference in hydrophobicity between the core group and the peripheral end group. The core group has a functional group at the end of dendrimer and can be anchored on the water surface. Upon further compression, monolayer of G1 shows a domain of molecules whereas a monolayer of G2 is aligned in the direction of compression at 10 mN/m. At higher surface pressure (20 mN/m), G1 molecules have several aggregates of domains, but G2 molecules maintain their ordering. These results were confirmed by the electron density profile of G1 and G2 monolayers transferred to silicon substrates, as measured by X-ray reflectivity.
doi_str_mv	10.1021/la802438n
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To understand the mechanism of the self-assembly of these molecules, we measured the surface pressure−surface area (Π−A) isotherm and investigated the surface texture of Langmuir−Blodgett monolayers transferred onto hydrophilic silicon wafers. Both dendrimers form circular domains at the onset point of surface pressure as a result of the difference in hydrophobicity between the core group and the peripheral end group. The core group has a functional group at the end of dendrimer and can be anchored on the water surface. Upon further compression, monolayer of G1 shows a domain of molecules whereas a monolayer of G2 is aligned in the direction of compression at 10 mN/m. At higher surface pressure (20 mN/m), G1 molecules have several aggregates of domains, but G2 molecules maintain their ordering. 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To understand the mechanism of the self-assembly of these molecules, we measured the surface pressure−surface area (Π−A) isotherm and investigated the surface texture of Langmuir−Blodgett monolayers transferred onto hydrophilic silicon wafers. Both dendrimers form circular domains at the onset point of surface pressure as a result of the difference in hydrophobicity between the core group and the peripheral end group. The core group has a functional group at the end of dendrimer and can be anchored on the water surface. Upon further compression, monolayer of G1 shows a domain of molecules whereas a monolayer of G2 is aligned in the direction of compression at 10 mN/m. At higher surface pressure (20 mN/m), G1 molecules have several aggregates of domains, but G2 molecules maintain their ordering. 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subjects	Chemistry Colloidal state and disperse state Exact sciences and technology General and physical chemistry Interfaces: Adsorption, Reactions, Films, Forces Langmuir blodgett films Surface physical chemistry
title	Self-Assembly of Asymmetric Fan-Shaped Dendrimers with Different Generation Numbers at the Air−Water Interface
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