Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Dissociation of ions

In the discussion of the relative acidity of carboxylic acids in Chapter 1, the thermodynamic acidity, expressed as the acid dissociation constant, was taken as the measure of acidity. It is straightforward to determine dissociation constants of such adds in aqueous solution by measurement of the titration curve with a pH-sensitive electrode (pH meter). Determination of the acidity of carbon acids is more difficult. Because most are very weak acids, very strong bases are required to cause deprotonation. Water and alcohols are far more acidic than most hydrocarbons and are unsuitable solvents for generation of hydrocarbon anions. Any strong base will deprotonate the solvent rather than the hydrocarbon. For synthetic purposes, aprotic solvents such as ether, tetrahydrofuran (THF), and dimethoxyethane (DME) are used, but for equilibrium measurements solvents that promote dissociation of ion pairs and ion clusters are preferred. Weakly acidic solvents such as DMSO and cyclohexylamine are used in the preparation of strongly basic carbanions. The high polarity and cation-solvating ability of DMSO facilitate dissociation... [Pg.405]

The results on the reaction of 1-octadecanol with octadecanoic acid in octadecyl octadecanoate22 are quite different from those relative to the same reaction carried out in benzophenone22 since the order with respect to acid is 1.5 in the first case and 2 in the second. Among the possible explanations of the lowering of the order in acid the most satisfactory is a non-negligible dissodation of the ion pair A and the formation of free RC(OH) . That such a process takes place in a non-polar medium (octadecyl octadecanoate) is rather surprising however, it can be supposed that all the reactive groups assemble in certain areas where they create a very polar medium and where water tends to be retained. In these areas, the dissociation of ion pairs would be easier and hence the overall order would decrease. [Pg.76]

The exceptionally low propagation constants of t-butyl and of phenyl methacrylate are notable. The polymerization of the former monomer was thoroughly examinedS5). At temperatures even as high as 25 °C this reaction, when performed in THF in the presence of salts depressing dissociation of ion-pairs, yields polymers of highly uniform size. The reaction is strictly first order in growing polymers and in monomer, and no... [Pg.109]

Polymerization of t-butyl methacrylate initiated by lithium compounds in toluene yields 100% isotactic polymers 64,65), and significantly, of a nearly uniform molecular-weight, while the isotactic polymethyl methacrylate formed under these conditions has a bimodal distribution. Significantly, the propagation of the lithium pairs of the t-Bu ester carbanion, is faster in toluene than in THF. In hydrocarbon solvents the monomers seem to interact strongly with the Li+ cations in the transition state of the addition, while the conventional direct monomer interaction with carbanions, that requires partial dissociation of ion-pair in the transition state of propagation, governs the addition in ethereal solvents. [Pg.110]

It is now clear that the equilibrium constant, which decreases with increasing temperature, is most probably that for the dissociation of ion-pairs. [Pg.393]

In the present context it will be useful to establish the conditions under which free cations or paired cations might be expected to determine the behaviour of a cationic polymerisation some aspects of this problem have been discussed previously [5]. Consider a system in which Pn+ are the growing polymer molecules and A is the anion derived from the catalyst or the syncatalytic system. Let [Pn+] + [Pn+ A"] = c, let [Pn+] = [A ] = i, [Pn+ A"] = q, and let K be the equilibrium constant for the dissociation of ion-pairs ... [Pg.417]

The effect of the dielectric constant D on enieidic polymerisations is analysed algebraically, with emphasis on the very complicated effect of D on the degree of dissociation of ion-pairs. [Pg.450]

The results of Enikolopyan and co-workers [27, 28] on the polymerisation of styrene by perchloric acid at high pressures shed some new light on the problem. Essentially their kinetic results agree with those of Pepper and Reilly and of ourselves. The important feature of their findings is that the extent of acceleration by pressure is merely that which can be attributed to increase of dielectric constant of the solvent. There was no effect which could be attributed to increasing abundance of free ions by increased dissociation of ion-pairs. This means that, if the propagating species are ions, then they are all free ions even at normal pressure (which is reasonable), or the propagating species is non-ionic. [Pg.669]

FIGURE 3.22. Endergonic homolytic dissociation of ion radicals, a Potential energy curves, b Bronsted plots combining the effect of diffusion and activation. kBT/h= 1013s-1, 4/= 1010 s-1, kdif = 1010M- s-1, Drx-w + 2o = 0.3eV, r = 298K. Dotted line log[Pg.225]

ShuMa, A.K. Fntrell, J.H. Tandem Mass Spectrometry Dissociation of Ions by Collisional Activation. J. Mass Spectrom. 2000,35,1069-1090. [Pg.65]

Collision induced dissociation the dissociation of ions after collisional excitation... [Pg.57]

To date, by far the best quantitative studies of unimolecular dissociations of ions with a well-defined energy distribution have been those using the photoelectron photoionization technique (PEPICO). These reactions have been discussed in detail elsewhere, most notably by Baer. ... [Pg.43]

The mechanism is outlined in Scheme 1. The formation of triple ions increases the concentration of Cs+ ions and buffers, therefore, the dissociation of ion-pairs into free styryl ions which are the main contributors to the propagation. [Pg.4]

Whenever equilibrium (a), which is coneentration-independent, is more Important than the conventional dissociation of ion-pairs, then its effect, in conjunction with the ion-pairs dissociation, decreases the anticipated concentration of anions. The reverse is true when equilibrium (b) prevails on (a). [Pg.5]

Tab. 3.1 Effect of solvents on the difficulties of ionization of acid HA and the dissociation of ion-pair (H+, A )so ... Tab. 3.1 Effect of solvents on the difficulties of ionization of acid HA and the dissociation of ion-pair (H+, A )so ...
The experimental result obtained was explained by the formation of ion pairs between the charges of a network and counter ions. The theoretical analysis of this problem has shown that the degree of ion pairs formation very strongly (exponentially) depends on e (cf. Sect. 2.2). Thus, if the precipitant has a small dielectric constant e (e.g. dioxane) the degree of dissociation of ion pairs is sufficiently small and this fact leads to the decrease of the osmotic pressure of counter ions which defines the swelling of the gel and the point of the transition in the collapsed state. As a result, in this case the degree of swelling of the gel near the transition point is less pronounced than for other solvents and only a relatively small amount of the precipitant is required to reach this point. In... [Pg.150]

In the styrene (MJ-indene (Mz) system, rx increased with the field. This result shows that the dissociation of ion pairs at the growing chain ends, the terminal group of which is styrene, was enhanced by the field. As was mentioned above, the field has no effect on the homopolymerization of styrene by boron trifluoride etherate in nitrobenzene (see Fig. 5). This result of the homopolymerization seems to be inconsistent with that obtained for the copolymerization, but can be accounted for as follows. The field-accelerating effect decreases as kp/kp decreases, when an enhancement of the degree of dissociation with the electric field is given. The fact that no field effect was observed on the homopolymerization of styrene with boron trifluoride etherate in nitrobenzene may be attributed to a fairly small value of kp/kp, in addition to the factor af 1. On the other hand, the field enhanced the polymerization of indene by boron trifluoride etherate in nitrobenzene (16). The difference in the field effects of the two monomer systems suggests that the following relation must hold, ... [Pg.361]

Electrophoresis does not show the presence of uncharged species, such as undissociated metal alcoholate or carbohydrate-metal hydroxide adducts. These species are probably present in alcoholic solutions, but their concentration has not yet been ascertained. Their presence is suggested by the relatively low mobility of carbohydrates in alcoholic solutions of alkali metal hydroxide. In aqueous media, where greater dissociation of ion pairs should occur, the mobility is extremely high. The possible existence of free carbohydrate-hydroxide ion species cannot be disregarded, because of the hydrogen-bonding properties of the hydroxide ion. [Pg.263]

In acetic acid it is possible to measure separately the equilibrium constant of proton transfer to form an ion pair and the constant for dissociation of ion pairs to form free ions. [I. M. Kolthoff and S. Bruckenstein, J. Amer. Chem. Soc., 78, I (1956) S. Bruckenstein and I. M. Kolthoff, J. Amer. Chem. Soc., 78, 10 (1956)]. G. W. Geska and E. Grunwald, J. Amer. Chem. Soc., 89, 1371, 1377 (1967) applied this technique to a number of substituted anilines and concluded that the equilibrium constant of the ionization step, rather than the overall acid dissociation constant, is the quantity that should be considered in discussions of effects of structural changes on acidity. [Pg.137]

A. K. Shukla and J. H. Futrell, Tandem mass spectrometry Dissociation of ions by collisional activation, J. Mass Spectrom., 35 (2000) 1069-1090. [Pg.129]

Bure C. and C. Lange. 2003. Comparison of dissociation of ions in an electrospray source, or a collision cell in tandem mass spectrometry. Curr. Org. Chem. 7 1613-1624. [Pg.345]


See other pages where Dissociation of ions is mentioned: [Pg.805]    [Pg.64]    [Pg.64]    [Pg.510]    [Pg.99]    [Pg.268]    [Pg.110]    [Pg.153]    [Pg.32]    [Pg.330]    [Pg.410]    [Pg.115]    [Pg.24]    [Pg.195]    [Pg.425]    [Pg.429]    [Pg.134]    [Pg.185]    [Pg.151]    [Pg.688]    [Pg.356]    [Pg.357]    [Pg.26]    [Pg.14]    [Pg.24]    [Pg.92]    [Pg.104]    [Pg.105]    [Pg.193]    [Pg.115]   
See also in sourсe #XX -- [ Pg.117 , Pg.117 , Pg.118 ]




SEARCH



Activation and Dissociation of Ions

Dissociation constant, of complex ions

Dissociation of Ions Produced by Electron Attachment

Dissociation of ion pairs

Dissociation of the sample into atoms or ions

Dissociation, Ions

Effect of Ionic Strength on Ion Dissociation

Principles of Ionization and Ion Dissociation

The dissociation energy of a spherical ion pair at zero kelvin

Theory of ion dissociation

Unimolecular dissociation of cluster ions

Unimolecular dissociation of gaseous cluster ions

© 2024 chempedia.info