<i>N</i>-Aryl Acylureas as Intermediates in Sequential Self-Repetitive Reactions To Form Poly(amide−imide)s

Wei, Kuan-Liang; Wu, Ching-Kuan; Huang, Wei-Hsiang; Lin, Jiang‐Jen; Dai, Shenghong A.

doi:10.1021/ma051827m

Cited by 23 publications

(13 citation statements)

References 13 publications

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“…17 In our previous paper in this series, we described a "sequential self-repetitive reaction (SSRR)" for the synthesis of polyamide through condensation of diisocyanate with diacid in the presence of a carbodiimide (CDI) catalyst. 18,19 The standard "SSRR" reaction involves three basic repetitive yet sequential reactions including: (i) condensation of two isocyanates into a CDI in the presence of a CDI catalyst (DMPO) 20 (ii) addition of acid to the CDI to yield N-acylurea and (iii) thermal fragmentation of the Nacylurea to form amide and isocyanate fragments both in half of the original molar amount, (Scheme 1). It was observed that step i and step ii were very facile even at a ambient temperature, whereas step iii could only be effective at a temperature of greater than 140 °C.…”

Section: Introductionmentioning

confidence: 99%

“…[21][22][23] However, when this three-step cycle repeats under heated conditions with sufficient acid, all of the isocyanate and CDI are converted into amide as the final product in excellent conversion and selectivity. 18,19 By extending this unique methodology, we have devised a new twist to the SSRR process by addition of small amount of a hindered carbodiimide (CDI) such as N,N 0 -bis(2,6-diisopropylphenyl)carbodiimide, iPr-CDI 1, or a hindered isocyanate such as 2,6-diisopropylphenyl isocyanate, iPr-NCO 7. Doing so creates terminally new hindered-CDIs (PiPr-CDI type 10, Scheme 4) on the growing polymer chains.…”

Section: Introductionmentioning

confidence: 99%

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Well-Defined Polyamide Synthesis from Diisocyanates and Diacids Involving Hindered Carbodiimide Intermediates

et al. 2010

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We have uncovered a novel polycondensation strategy for the synthesis of well-defined polyamides of narrow molecular weight distributions based on modifications of our sequential self-repetitive reaction (SSRR) previously developed for diisocyanatedicarboxylic acid polymerization. In our newly discovered SSRR polyamide formation mechanism, a small amount of hindered carbodiimide, N,N-bis(2,6-diisopropylphenyl)carbodiimide (iPr-CDI) or a hindered isocyanate such as 2,6-diisopropylphenyl isocyanate (iPr-NCO), was introduced to the polymerization as an initiator, followed by simultaneous addition of diisocyanates and diacids monomers. By using this new reaction mode, the SSRR mechanism produces polyamide products of narrow molecular weight distributions with their dispersities reduced to 1.21.4, which is far lower than a range of >2.5 found in regular SSRR reactions. Significantly different from a conventional step-growth or standard SSRR reaction, the formation of a polymer backbone is preferential when the diacid is added to the requisite iPr-CDI in the first step, followed by a rearrangement to form amide and fragmented components for SSRR. The control of molecular weight is mainly attributed to the acid addition favoring the unhindered poly-CDI intermediates in the middle of the growing chains over the hindered-CDI at the chain terminals. It appears that the formation of a hindered isocyanate and the subsequent formation of a new hindered-CDI at the terminal end of growing amide-chains in each SSRR cycle force the acid again toward the preferred unhindered CDI sites dictating the observed outcome. This simple polyamide synthesis methodology is unique and unconventional, and it could significantly facilitate the development of tailored-made polyamides from a variety of diisocyanates and diacids

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Well-Defined Polyamide Synthesis from Diisocyanates and Diacids Involving Hindered Carbodiimide Intermediates

et al. 2010

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“…In 1 H NMR spectrum of PIM, the peak at 10.4 ppm vanished and a new peak at 10.5 ppm emerged. This single peak at 10.5 ppm was the characteristic absorption of amide proton, indicating the completion of SSRR [29].…”

Section: Structural Characterization Of Pam and Pimmentioning

confidence: 93%

“…In this research, we report a series of new NLO-active poly(amide-imide)-clay materials prepared via SSRR [19,29]. Difunctional diamino diphenyl methane (DDM) was chosen to be the intercalating agent.…”

Section: Introductionmentioning

confidence: 99%

Nonlinear optical, poly(amide-imide)–clay nanocomposites comprising an azobenzene moiety synthesised via sequential self-repetitive reaction

et al. 2009

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“…[14] The achieved labelling turned out to be unaffected by this, reaching efficiencies about 0.43, as long as individual labels, such as the used benzoic acid were given to the labelling solution in sufficient surplus. In a case where the carboxyl functionalities were bound to the resorcinarene at explicit positions, on the other hand, an inhibition of capsulation by dehydration urea reaction products could be assumed.…”

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Formation of Heterodimeric Resorcin[4]arene Capsules on Surfaces: An X-Ray Photoelectron Spectroscopy Investigation

et al. 2011

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The hydrogen bond formation of heterodimeric molecular capsules assembled from complementary functionalized resorcinarene cavitands is of considerable scientific interest from the viewpoint of multicomponent molecular assemblies.[1, 2] Different macromolecular and H-bond oligomeric systems have recently been discussed with a view to providing host assemblies encapsulating molecular guests. [3][4][5] On account of the hydrogen-bond character of these capsules, such assemblies provide templates of flexible heterocomposed functionalities. Potentially encapsulated compounds can for example hence be specifically released once the intermolecular hydrogen bond interaction responsible for the formation of these assemblies is modified or disrupted. [5,6] Herein the formation of hydrogenbonded heterodimeric capsules AB (see Figure 1) based on a monolayer of tetrapyridyl resorcinarenes B is verified by means of X-ray photoelectron spectroscopy (XPS). Therefore the N 1s core-level signatures of benzoic-acid-labelled and of AB-capsulated tetrapyridyl resorcinarene monolayers were analyzed with the aid of model assumptions achieved by fitting the signatures of labelled model amine systems, polyethyleneimine triethoxysilane (PEIs) and branched polyethyleneimine (PEIb). Labelling them with carboxyl provided differently weighted Hbond-and protonating interaction characters, depending on the particular contribution of primary, secondary and tertiary amines. Referring to these model systems, the interaction responsible for the achieved on-surface capsulation was proven to be of hydrogen-bond character. Unlike a monolayer with compact dense pyridyl functionalities, this interaction character turned out to depend on the density provided on the surface. The efficiency of the capsulation on the other hand was found to be affected by the individual availability of the labelling carboxyl functionalities.X-ray photoelectron spectroscopy (XPS) investigations of the mentioned model PEI structures labelled with benzoic acid were first carried out to gain a deeper understanding as to the effect of H-bond-or protonation-dominated N···HO(O=C) interactions on the nitrogen N 1s photoelectron spectra.Whilst the PEIs provide secondary and tertiary amines, effectively weighted by (0:67:33), the branched polyethyleneimine (PEIb) consists of primary, secondary and tertiary amines weighted by (25:50:25). The labellings of these PEI structures were performed in solution to gain a first impression of the interaction specifically affecting the spectra. Thus the obtained spectroscopic modifications due to the N···HO(C=O) interaction of the different amine nitrogens could be investigated without any dependence of labelling affinities on surface or immobilizing aspects having to be considered in this model case. The N 1s spectra of both labelled structures are shown in Figure 2. On fitting these spectra, two shifted N 1s species associated with hydrogen bond and protonating interaction were observed, showing different particular amounts in each case. [7,8] T...

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N-Aryl Acylureas as Intermediates in Sequential Self-Repetitive Reactions To Form Poly(amide−imide)s

Cited by 23 publications

References 13 publications

Well-Defined Polyamide Synthesis from Diisocyanates and Diacids Involving Hindered Carbodiimide Intermediates

Well-Defined Polyamide Synthesis from Diisocyanates and Diacids Involving Hindered Carbodiimide Intermediates

Nonlinear optical, poly(amide-imide)–clay nanocomposites comprising an azobenzene moiety synthesised via sequential self-repetitive reaction

Formation of Heterodimeric Resorcin[4]arene Capsules on Surfaces: An X-Ray Photoelectron Spectroscopy Investigation

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