Syntheses and Interfacial Hydrogen-Bonded Network of Hexaalkyl Tris(Melamine) Amphiphiles

Koyano, Hiroshi; Bissel, Philippe; Yoshihara, Kanami; Ariga, Katsuhiko; Kunitake, Toyoki

doi:10.1021/la970014r

Cited by 47 publications

(39 citation statements)

References 24 publications

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“…The air-water interface has been also used for recognition of various aqueous guest molecules including nucleic acids, their bases, nucleosides, and nucleotides [669][670][671][672][673], barbituric acid and related derivatives [674][675][676][677][678], amino acids, saccharides [679][680][681][682][683][684][685][686][687], and others [688,689]. However, most of these examples do not utilize one critical feature of the air-water interface, its dynamic nature.…”

Section: Langmuir-blodgett Filmsmentioning

confidence: 99%

Challenges and breakthroughs in recent research on self-assembly

Ariga

Hill

Lee

et al. 2008

Science and Technology of Advanced Materials

Self Cite

735

410

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The controlled fabrication of nanometer-scale objects is without doubt one of the central issues in current science and technology. However, existing fabrication techniques suffer from several disadvantages including size-restrictions and a general paucity of applicable materials. Because of this, the development of alternative approaches based on supramolecular self-assembly processes is anticipated as a breakthrough methodology. This review article aims to comprehensively summarize the salient aspects of self-assembly through the introduction of the recent challenges and breakthroughs in three categories: (i) types of self-assembly in bulk media; (ii) types of components for self-assembly in bulk media; and (iii) self-assembly at interfaces.

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Section: Langmuir-blodgett Filmsmentioning

confidence: 99%

Challenges and breakthroughs in recent research on self-assembly

Ariga

Hill

Lee

et al. 2008

Science and Technology of Advanced Materials

Self Cite

735

410

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show abstract

“…These diffractions were accompanied by small diffractions with half and one-third (only for 1 Á dCA) of their d-spacing values (Table 2). These XRD patterns indicate that these aggregates form multilamellar structures via the formation of linear tapelike hydrogen bonding motif ( Figure 9) 25,[31][32][33][34]47 Although no gelation was observed for other systems (1 Á Bar, 2 and 2 Á dCA), their thin films prepared from chloroform solutions showed XRD patterns assignable to multilamellar structures upon heating (Supplementary Figure S3 and Table 2). …”

Section: Microscopic Structuresmentioning

confidence: 99%

“…28 For PBI dyes, we have recently succeeded to organize soluble swallow-tailed derivatives, which inherently form one-dimensional columnar structures, 29,30 into two-dimensional lamellar structures 26 by using linear tapelike hydrogen bonding motifs of melamine-cyanurate (2 Á dCA) or melamine-barbiturate (2 Á Bar, Figures 1 and 2). [31][32][33][34] These aggregates are highly soluble in halogenated solvents such as chloroform, thus enabling the fabrication of smooth thin films without notable grain boundaries via solution processing followed by thermal annealing. The resulting thin films could be used as electron transporting layers in organic field effect transistor (OFET) devices.…”

Section: Introductionmentioning

confidence: 99%

Perylene bisimide organogels formed by melamine·cyanurate/barbiturate hydrogen-bonded tapes

Seki

Karatsu

Kitamura

et al. 2012

Polym J

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Ditopic melamines possessing one (1) or two (2) perylene bisimide (PBI) chromophores were synthesized and their selfaggregation and coaggregation with dodecyl cyanurate (dCA) or barbital (Bar) were investigated. Optically transparent organogels were formed through self-aggregation of 1 and coaggregation of 1 or 2 with dCA or Bar in nonpolar solvents. X-ray diffraction of the xerogels exhibited typical diffraction patterns assignable to lamellar structures, suggesting the formation of tapelike hydrogen-bonded motifs. Remarkably low critical gelation concentrations (cgc) of 8.0 Â 10 À4 M were revealed for all organogels, thus they can be classified as supergelators. Comparison of the thermal stabilities of the gels revealed that the gels containing 2 have higher melting temperatures (T m ) than those containing 1. Scanning electron microscopy and atomic force microscopy showed that the gels containing 1 are composed of sheetlike microstructures, whereas those containing 2 are composed of fibrous nanostructures, consistent with the difference in their thermal stabilities. The different self-assembled structures of our PBI aggregates can be related to whether extended stacks of PBI dyes along the hydrogen-bonded strands are possible or not.

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“…1,2 The networks are formed almost exclusively by covalent bonds and are generally irreversible. Recently, considerable progress has been achieved on design of supramolecular polymer networks (SPNs) formed by multiple hydrogen bonding (MHB) between various components such as ureidopyrimidinone (UPy) dimer, [3][4][5][6] Hamilton wedge/cyanuric acid, 7 melamine (ML)/cyanuric acid (CA), [7][8][9] and ML/thymine analogs, 10 which are applicable to self-healing 11,12 and shape memory materials, 13 stimuliresponsive gels, 14,15 drug delivery system, 16,17 and so on. However, there are a few studies on polymer networks having both covalent and MHB cross-linkages.…”

Section: Introductionmentioning

confidence: 99%

Thermosetting bismaleimide resins generating covalent and multiple hydrogen bonds

Shibata

Satoh

Ehara

2015

J of Applied Polymer Sci

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Prepolymerizations of 4,4 0 -bismaleimidodiphenylmethane (BMI), diallyl isocyanurate (DAIC), and melamine (ML) at 160-1708C and subsequent compression molding at 200-2808C yielded cured BMI/DAIC/ML resins with feed molar ratios of 4/1/1, 3/1/1, and 2/1/1 (BMI-DAIC-ML411, 311, and 211). Similarly, cured BMI/DAIC 1/1 and BMI/ML 3/1 resins (BMI-DAIC11 and BMI-ML31) were prepared. The FT-IR analysis revealed that the maleimide and allyl groups were almost consumed for all the cured resins, and the hydrogen bonding interaction became stronger with decreasing BMI contents for BMI-DAIC-MLs. Based on the cured structures elucidated from the FT-IR result, the numbers of multiple hydrogen bonds and cross-linking covalent bonds (N MHB and N CB ), and total cross-linking bond energy (E TB ) were evaluated to be 0, 7.92, and 618 for BMI-DAIC-ML411, 0.71, 7.81, and 627 for BMI-DAIC-ML311, and 0.95 mol kg 21, 7.61 mol kg 21, and 617 kcal kg 21 for BMI-DAIC-ML211, respectively. A higher order of glass transition and 5% weight loss temperatures for BMI-DAIC-MLs was 411 > 311 > 211 in accordance with a higher order of N CB . BMI-DAIC-MLs displayed a weak tan d peak at 70-1508C due to dissociation of the hydrogen bonds. The flexural strength and modulus of BMI-DAIC-ML311 were higher than those of BMI-DAIC-ML411 in accordance with the difference of E TB . V C 2015 Wiley Periodicals, Inc. J. Appl. Polym.Sci. 2016, 133, 43121.

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Syntheses and Interfacial Hydrogen-Bonded Network of Hexaalkyl Tris(Melamine) Amphiphiles

Cited by 47 publications

References 24 publications

Challenges and breakthroughs in recent research on self-assembly

Challenges and breakthroughs in recent research on self-assembly

Perylene bisimide organogels formed by melamine·cyanurate/barbiturate hydrogen-bonded tapes

Thermosetting bismaleimide resins generating covalent and multiple hydrogen bonds

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