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Amidization amino functionality, reaction with

One of the first examples of the grafting to approach was published by Sun et al. in 2001 [32]. In this work carboxylic acid groups on the nanotube surface were converted into acyl chlorides by refluxing the samples in thionyl chloride. Then the acid chloride functionalized carbon nanotubes were reacted with hydroxyl groups of dendritic PEG polymers via esterification reactions. Similarly, many polymers terminated with amino or hydroxyl moieties have been used in amidation and esterification reactions with acid chloride modified NTs poly(propionylethylenimine-co-ethylenimine) (PPEI-EI) [33], poly(styrene-co-aminomethylstyrene) (PSN) [34], poly-(amic acid) containing bithiazole rings [35], monoamine-terminated poly(ethylene oxide) (PEO) [36], poly(styrene-co-hydroxymethylstyrene) (PSA) [37], poly(styrene-co-p-[4-(4 -vinylphenyl)-3-oxabutanol]) (PSV) [38], poly(vinyl alcohol) (PVA) [39], poly(vinyl acetate-co-vinyl alcohol) (PVA-VA) [40] or poly[3-(2-hydroxyethyl)-2,5-thienylene] (PHET) [41]. [Pg.276]

Triazole has been prepared by the oxidation of substituted 1,2,4-triazoles, by the treatment of urazole with phosphorus pentasulfide, by heating equimolar quantities of formyl-hydrazine and formamide, by removal of the amino function of 4-amino-l,2,4-triazole, by oxidation of l,2,4-triazole-3(5)-thiol with hydrogen peroxide, by decarboxylation of 1,2,4-triazole-3(5)-carboxylic acid, by heating hydrazine salts with form-amide,by rapidly distilling hydrazine hydrate mixed with two molar equivalents of formamide, i by heating N,N -diformyl-hydrazine with excess ammonia in an autoclave at 200° for 24 hours, and by the reaction of 1,3,5-triazine and hydrazine monohydrochloride. ... [Pg.102]

The carboxyl groups of amino acids undergo all the simple reactions common to this functional group. Reaction with ammonia and primary amines yields unsubstituted and substituted amides, respectively (Figure 4.9a,b). Esters... [Pg.93]

The reaction of 5a-bromo-a-tocopherol (46) with amines was further elaborated into a procedure to use this compound as a protecting group Toe for amines and amino acids (Fig. 6.35).62 The protection effect was due to a steric blocking of the amino function by the bulky tocopheryl moiety rather than due to conversion into a non-nucleophilic amide derivative, and the Toc-protected amino acids were employed in the synthesis of dipeptides according to the dicyclohexylcarbodiimide (DCC) coupling method.64 The overall yield of the reaction sequence was reported to be largely dependent on the coupling reaction, since both installation and removal of the... [Pg.197]

Furthermore, oxazoles of type 9-82 bearing a secondary amino functionality can be converted into pyrrolo[3,4-b]pyridines 9-86 by reaction with appropriate acid chlorides 9-83 in a triple domino process consisting of amide formation/hetero Diels-Alder reaction and retro-Michael cycloreversion via 9-84 and 9-85 (Scheme 9.17). The pyrrolo[3,4-fc]pyridines can be obtained in even higher yields when the whole sequence is carried out as a four-component synthesis in toluene. Here, 1.5 equiv. NH4C1 must be added for the formation of the now intermediate oxazoles [56b]. [Pg.554]

Enantiospecific syntheses of amino derivatives of benzo[ ]quinolizidine and indolo[2,3- ]quinolizidine compounds have also been achieved via A-acyliminium ion cyclization reactions, as an alternative to the more traditional Bischler-Napieralski chemistry (see Section 12.01.9.2.2). One interesting example involves the use of L-pyroglutamic acid as a chiral starting material to construct intermediates 240 via reaction with arylethylamine derivatives. Diisobutylaluminium hydride (DIBAL-H) reduction of the amide function in 240 and subsequent cyclization and further reduction afforded piperidine derivatives 241, which stereoselectively cyclized to benzo[ ]quinolizidine 242 upon treatment with boron trifluoride (Scheme 47) <1999JOC9729>. [Pg.37]

The first surface-initiated enzymatic polymerization reported was the synthesis of amylose brushes on planar and spherical surfaces [145]. For this, silica or silicone surfaces were modified with self-assembled monolayers of (3 amino-propyl)trimethoxysilane or chlorodimethylsilane, respectively. To these functionalities, oligosaccharides were added via (a) reductive amidation of the oligosaccharides to surface-bound amines, (b) conversion of the oiigosaccharide to the according aldonic acid lactone and reaction with surface bound amines, and (c) incorporation... [Pg.34]

Treatment of 1-alkynylethers and 1-chloroalkynes with lithium dialkyl amide gives rise to a displacement of the heteroatom by the amino function [158,159]. The reactions are assumed to proceed via an adduct ... [Pg.163]

Incorporation of a piperazine function on the heterocyclic ring leads to a compound in which bronchodilator activity predominates. Treatment of the amino-amide (73-1) with trimethyl orthoformate provides the additional carbon atom for the formation of the quinazolone ring in (73-2). Reaction with phosphoms oxychloride in effect converts the ring to its aromatic form (73-3) by locking in the former amide as an enol chloride. Displacement of the halogen with the isobutyryl urethane (73-4) from piperazine affords piquizil (73-5) [82]. [Pg.477]

Lysine has two amino groups. Both amino functions are converted to amides on reaction with benzyloxycarbonyl chloride. [Pg.759]

In preparation for the eventual removal of the undesired oxygen function at C-10 of 313 via a Birch reduction, the phenol 313 was phosphorylated with diethyl phosphorochloridate in the presence of triethylamine to give 314, which underwent stereoselective reduction with sodium borohydride with concomitant N-deacylation to deliver the amino alcohol 315. N-Methylation of 315 by the Eschweiler-Clarke protocol using formaldehyde and formic acid followed by ammonolysis of the ester group and acetylation of the C-2 hydroxyl function afforded 316. Dehydration of the amide moiety in 316 with phosphorus oxychloride and subsequent reaction of the resulting amino nitrile 317 with LiAlH4 furnished 318, which underwent reduction with sodium in liquid ammonia to provide unnatural (+)-galanthamine. [Pg.312]

Towards fabrication of SWNT-based molecular electronic devices, two methods have been used to assemble the 03-SWNTs on functionalized SAMs of OPEs, as shown in Figure 5.10. The first, termed chemical assembly , is based on a condensation reaction between the carboxylic acid functionalities of O3-SWNTs and the amine functionalities of SAMs to form amides. The results show that O3 -SWNTs coat the amino-terminated SAM with a high degree of surface coverage. The second method is based on physical adsorption via layer-by-layer (LBL) deposition with bridging of metal cations, i.e., Fe3+ on carboxylate terminated SAMs or Cu2+ on thiol-terminated SAMs. The oxidatively shortened 03 -SWNTs are shown to be perpendicular to the surface with random adsorption of longer tubes. The patterned nanotube assemblies may be useful in hybridized electronic devices, where device functions can be modified by the orientation and stacking of SWNTs, and the properties of the SAM. [Pg.88]


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2-Amino- -amid

Amidating reaction

Amidation reactions

Amide Functionality

Amide Reaction

Amino Functions

Reaction function

Reaction with amides

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