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Amines carboxylation

Electrochemical fluonnation ot N,N dialkylammo-substituted carboxylic acids as their methyl esters produces the analogous perfluonnated tertiary amine carboxylic acid derivatives in 18-30% yields as well as cyclic amine ethers [JOO]... [Pg.116]

Pentafluorobenzyl bromide has been used in the derivatization of mercaptans [55] and phenols [36], m the analysis of prostaglandins [37], and in quantitative GC-MS [5S] 1,3 Dichlorotetrafluoroacetone is used for the derivatization of amino acids to the corresponding cyclic oxazolidinones and allows the rapid analysis of all 20 protein ammo acids [d] Pentafluorophenyldialkylchlorosilane derivatives have facilitated the gas chromatographic analysis of a wide range of functionally substituted organic compounds, including steroids, alcohols, phenols, amines, carboxylic acids, and chlorohydrms [4]... [Pg.1030]

Radiation grafting for various biomedical applications remains an extremely active field of development. The grafted side chains can contain functional groups to which bioactive materials can be attached. These include amine, carboxylic, and hydroxyl groups, which can be considered as a center for further modifications. [Pg.512]

Conjugation of polar groups such as amines, carboxylic acids, and phenolic hydroxyl gronps produce water-soluble compounds that are excreted and these reactions therefore fnnction as a detoxification mechanism. [Pg.92]

A substrate containing an amine carboxylate moiety is converted in an electrolyte solution in the presence of a strong acid to a cationic intermediate, an N-acyliminium cation, by electrooxidative reaction. This species is immediately reacted with an allylsilane [66, 67]. By nucleophilic reachon, C-C bond formahon is achieved. [Pg.445]

In another report, aspects for automating preparative chemistry are described [130]. A comprehensive description of the Ugi reaction is given in [132] and the vision of a micro multi-component reaction as automated parallel micro-channel synthesis is sketched. An interesting point is to convert aldehydes, chiral primary amines, carboxylic adds and isocyanates into corresponding a-amino acids and peptides (U-4CR). [Pg.511]

Special functional groups Primary, secondary, and tertiary amines, carboxylic acids, alcohols... [Pg.301]

The heterobifunctional PEGs are very useful in linking two entities in cases where a hydrophilic, flexible, and biocompatible spacer is needed. Preferred end groups for heterobifunctional PEGs are maleimides, vinyl sulfones, pyridyl disulfides, amines, carboxylic acids, and /V-hydroxysuccinimide (NHS) esters. [Pg.246]

Conjugation chemistry for the coupling of haptens to carrier molecules is fairly well defined for compounds having common functional groups to facilitate such attachment. The types of functional groups generally useful for this operation include easily reactive components such as primary amines, carboxylic acids, aldehydes, or sulfhydryls. [Pg.773]

Figure 22.9 The major functional groups of lipids that may participate in bioconjugate techniques include amines, carboxylates, and hydroxyls. Figure 22.9 The major functional groups of lipids that may participate in bioconjugate techniques include amines, carboxylates, and hydroxyls.
Derivatized compounds with fluorophores (amino acids, steroids, aliphatic amines, carboxylic acids, catecholamines, etc.)... [Pg.58]

Advances have been achieved in recent years, such as the use of CL reagents as labels to derivatize and sensitively determine analytes containing amine, carboxyl, hydroxy, thiol, and other functional groups and their application in HPLC and CE [35, 36], the synthesis and application of new acridinium esters [37], the development of enhanced CL detection of horseradish peroxidase (HRP) labels [38], the use of immobilization techniques for developing CL-based sensors [39-42], some developments of luminol-based CL in relation to its application to time-resolved or solid-surface analysis [43], and the analytical application of electrogenerated CL (ECL) [44-47], among others. [Pg.59]

The OPLS parameters (charges and Lennard-Jones terms) were obtained primarily via Monte Carlo simulations with particular emphasis on reproducing the experimental densities and heats of vaporization of liquids. Those simulations were performed iteratively as part of the parametrization, so better agreement with experiment is obtained than in previous studies where the simulations were usually carried out after the parametrization. Once the OPLS parametrization was completed, further simulations were also performed in order to test the new set of parameters in the calculation of other thermodynamic and structural properties of the system, besides its density and its heat of vaporization. Parameters have now been generated, among others, for water, alkanes, alkenes, alcohols, amides, alkyl chlorides, amines, carboxylic esters and acids, various sulfur and nitrogen compounds, and nitriles. A protein force field has been established as well. [Pg.157]

The chelate effect in inorganic chemistry is the ability of two or more covalently linked metal ligands (eg., thiols, amines, carboxylates, etc) to bind a metal cation much more strongly than the individual (unlinked) metal ligands (Fig. 8). This phe-... [Pg.361]

Isocyanates are quite reactive and they react with compounds which contain active hydrogen such as hydroxy, amine, carboxylic acids, amide, urea, etc. They can also undergo addition reaction ... [Pg.202]

The starting material is an 18 electron nickel zero complex which is protonated forming a divalent nickel hydride. This can react further with alkenes to give alkyl groups, but it also reacts as an acid with hard bases to regenerate the nickel zero complex. Similar oxidative addition reactions have been recorded for phenols, water, amines, carboxylic acids, mineral acids (HCN), etc. [Pg.38]

Addition of HCN to acetone to form the cyanohydrin is still the main route to methyl methacrylate. Hydrocyanins can be converted to amino acids as well. The nitrile group can be easily converted to amines, carboxylic acids, amides, etc. Addition to aldehydes and activated alkenes can be done with simple base, but addition to unactivated alkenes requires a transition metal catalyst. The methods of HCN addition have been discussed by Brown [2],... [Pg.229]

Rule of thumb The stability of molecular ions roughly decreases in the following order aromatic compounds > conjugated alkenes > alkenes > alicyclic compounds > carbonyl compounds > linear alkanes > ethers > esters > amines > carboxylic acids > alcohols > branched alkanes. [81]... [Pg.263]

A variety of these physisorbed molecules were used as anchor points for covalent immobilization in a so-called hybrid approach [16]. That is the case of bifunctional pyrenes (i.e. 1 -pyrenebutanoic acid sucdnimidyl ester, pyrene maleimide) or polymers with terminal amine/carboxylic groups that have been used to covalently immobilize proteins, functionalized oligonucleotides, and so on, (Figure 3.9) [43,44]. [Pg.133]

The linear telomerization reaction of dienes was one of the very first processes catalyzed by water soluble phosphine complexes in aqueous media [7,8]. The reaction itself is the dimerization of a diene coupled with a simultaneous nucleophilic addition of HX (water, alcohols, amines, carboxylic acids, active methylene compounds, etc.) (Scheme 7.3). It is catalyzed by nickel- and palladium complexes of which palladium catalysts are substantially more active. In organic solutions [Pd(OAc)2] + PPhs gives the simplest catalyst combination and Ni/IPPTS and Pd/TPPTS were suggested for mnning the telomerizations in aqueous/organic biphasic systems [7]. An aqueous solvent would seem a straightforward choice for telomerization of dienes with water (the so-called hydrodimerization). In fact, the possibility of separation of the products and the catalyst without a need for distillation is a more important reason in this case, too. [Pg.194]

Chloro-2,2,3,3,4,4,5,5-octafluoropentyl Alcohols, amines, carboxylic acids GC/NCI-MS... [Pg.124]


See other pages where Amines carboxylation is mentioned: [Pg.224]    [Pg.91]    [Pg.1069]    [Pg.509]    [Pg.168]    [Pg.509]    [Pg.1033]    [Pg.1625]    [Pg.119]    [Pg.76]    [Pg.385]    [Pg.106]    [Pg.488]    [Pg.384]    [Pg.241]    [Pg.13]    [Pg.39]    [Pg.272]    [Pg.354]    [Pg.776]    [Pg.822]    [Pg.900]    [Pg.954]    [Pg.228]    [Pg.621]    [Pg.75]    [Pg.133]    [Pg.94]    [Pg.86]    [Pg.353]   
See also in sourсe #XX -- [ Pg.338 ]




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1.1.1- Trifluorides amines carboxylic acids

AMINES FROM MIXED CARBOXYLIC-CARBONIC ANHYDRIDES

Acetylene and Substituted Acetylenes in Presence of Carboxylic Acids, Hydrogen Halides, Mercaptans or Amines

Aminations carboxylic acids, pyridine

Amine and Carboxylic Ester

Amine from carboxylic acids

Amine reaction with carboxylic acids

Amine with carboxylic acids

Amines carboxylates

Amines carboxylates

Amines carboxylic acid amides

Amines carboxylic acid esters

Amines carboxylic acid reduction

Amines carboxylic acid thioamides

Amines carboxylic acids

Amines carboxylic acids and

Amines condensations, carboxylic acids, pyridine

Amines dehydrative condensations with carboxylic acids

Amines from carboxylic acid derivatives

Amines reaction with carboxylic

Amines salts formed between carboxylic acids

Amines synthesis from carboxylic

Amines with carboxylic acid anhydrides

Amines, separation from carboxylic acids

Aziridine-2-carboxylate ester amine

Carboxyl group conjugation amines

Carboxylation of amines

Carboxylic Acids, Esters, Amines, and Amides

Carboxylic acid anhydrides with ammonia and amines

Carboxylic acid azides amines

Carboxylic acid derivatives reaction with amine nucleophiles

Carboxylic acid hydrazides amines

Carboxylic acid hydrazides amines, Curtius

Carboxylic acid silyl esters amines

Carboxylic acids amine synthesis

Carboxylic acids from amine-catalyzed condensation reactions

Carboxylic acids reductive amination

Carboxylic amination

Carboxylic amines

Carboxylic amines

Carboxylic esters with amines

Condensations amines with carboxylic acids, pyridine

How Do Carboxylic Acid Derivatives React with Ammonia and Amines

Ketene aminals carboxylic acid chlorides

Olefins and Functional Derivatives in the Presence of Carboxylic Acids, Thiols, Amines or Hydrogen Chloride

Oxidation, amines carboxylic acids

Primary amines with carboxylic acid salts

Reducible Functional Groups Reductive Amination with Carboxylic Acids

Reductions of Carboxylic Acid Derivatives to Alcohols or Amines

Schmidt amines from carboxylic

Sulfonic or Carboxylic Acid-Amine Bifunctional Catalyst

Synthesis of Amines from Carboxylic Amides

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