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Ion-based

A more detailed study of the nitration of quinolinium (l) in 80-05 % sulphuric acid at 25 °C, using isotopic dilution analysis, has shown that 3-) 5-) 6-, 7- and 8-nitroquinoline are formed (table 10.3). Combining these results with the kinetic ones, and assuming that no 2- and 4-nitration occurs, gives the partial rate factors listed in table 10.4. Isoquinolinium is 14 times more reactive than quinolinium. The strong deactivation of the 3-position is in accord with an estimated partial rate factor of io for hydrogen isotope exchange at the 3-position in the pyridinium ion. It has been estimated that the reactivity of this ion is at least 10 less than that of the quinolinium ion. Based on this estimate, the partial rate factor for 3-nitration of the pyridinium ion would be less than 5 x io . [Pg.212]

Passage through the quadmpole assembly is described as stable motion, while those trajectories that lead ions to strike the poles is called unstable motion. From mathematical solutions to the equations of motion for the ions, based on Equation 25.1, two factors (a and q Equation 25.2) emerge as being important in defining regions of stable ion trajectory. [Pg.187]

INVESTIGATION OF ANTHOCYANIN COMPLEXATION WITH METAL IONS BASED ON THE COLOR MEASUREMENT... [Pg.112]

Fig. 24. Calculation of the conformational energy of Valinomycin as a function of the size of the polar core which contains the ion. This uses the structure of Fig. 20. The verticle lines are the optimal core sizes for the indicated ions. Based on the conformational energy component, selectivity for K+ and Rb+ would be similar and Cs+ less favored. Na+ is off the curve suggesting that this conformation cannot form a polar core small enough to complex Na+ by means of this conformation. Adapted with permission from Ref. Fig. 24. Calculation of the conformational energy of Valinomycin as a function of the size of the polar core which contains the ion. This uses the structure of Fig. 20. The verticle lines are the optimal core sizes for the indicated ions. Based on the conformational energy component, selectivity for K+ and Rb+ would be similar and Cs+ less favored. Na+ is off the curve suggesting that this conformation cannot form a polar core small enough to complex Na+ by means of this conformation. Adapted with permission from Ref.
Aziridinium ion-based click chemistry provides convenient access to pyrazolo[l,2-ajpyrazoles, active inhibitors of penicillin-binding proteins [58, 59]. Ring-opening of aziridinium ions 32 at the benzylic position with hydrazine, followed by intramolecular cyclization, gave pyrazolidin-3-ones 37 in excellent yields (Scheme 12.27). Heating of the hydrazides 37 with aromatic aldehydes at reflux in absolute... [Pg.473]

Immonium ion based synthetic methodology a novel method for the N-methylation of dipeptides and amino acid derivatives via retro aza-Diels-Alder reactions [93]... [Pg.290]

Quinolizidine synthesis via intramolecular immonium ion based Diels-Alder reactions total synthesis of ( )-lupinine, ( )-epilupinine, ( )-criptopleurine and ( )-julandine [97]... [Pg.291]

However, analyses of the interface surrounded by some medium are not easy. When an interface of interest is exposed to a vacuum, electron-based or ion-based methods are available to determine the chemical composition and molecular structure of the top layers. The charged particles with limited penetration range result in a good vertical resolution. Buried interfaces are beyond the range of penetration. Photons, an alternative class of probe particles, have better ability for penetration. When the linear response to the incident electric field is analyzed, the vertical resolution is limited to the order of the wavelength, which is greater than the thickness of the top layers. [Pg.103]

The thermochemical schemes in Figure 5.2 reveal many different approaches for obtaining the BDE, by using either positive ion or negative ion based methods. Among these are Eqs 5.4 and 5.5. More in-depth discussion of these relationships can be found elsewhere. " ... [Pg.219]

Alternative negative ion-based methods for measuring carbene and diradical enthalpies of formation have been developed, which can give BDEs indirectly. A common approach for this involves the use of halide affinity measurements. The relationship between enthalpy of formation and halide affinity is illustrated by Eq. 5.14. [Pg.229]

The addition of metal ions to the mobile phase frequently yields Improved separations of solutes capable of forming complexes (conversely the addition of ligands to the mobile phase may allow the separation of metal ions based on differences in the distribution constants of the complexes between the mobile phase and, stationary phase) [353-355]. A number of important... [Pg.210]

Analysis by the Detection of Scattered Ions. Ions generally penetrate the specimen much less deeply than electrons of equivalent energy, so they are more surface-sensitive. Ion-based surface analytical techniques are popular because of their sensitivity and their ability, in some cases, to reveal the depth composition profile. [Pg.205]

Consider, for example, the well-studied reaction between C+ and NH3, for which one set of products consists of the ion CH2N+ + H. But what is the structure of the product ion Based on detailed quantum chemical studies of the very complex potential surface, it is likely that two isomers are produced initially—the linear HCNH+ ion and the T-shaped H2NC+form89—although it is also possible that the latter form can subsequently isomerize via a unimolecular path into the more stable... [Pg.23]

Raes (1987) presents the results of additional cluster formation modeling studies based on the methods he presented earlier (Raes, 1985 Raes and Janssens, 1985). These results would suggest that the ultrafine mode is the result of ion-based cluster formation. [Pg.10]

It is evident that the approach described so far to derive the electronic structure of lanthanide ions, based on perturbation theory, requires a large number of parameters to be determined. While state-of-the-art ab initio calculation procedures, based on complete active space self consistent field (CASSCF) approach, are reaching an extremely high degree of accuracy [34-37], the CF approach remains widely used, especially in spectroscopic studies. However, for low point symmetry, such as those commonly observed in molecular complexes, the number of CF... [Pg.15]

Other types of N-acyliminium ion-based cyclizations that are assisted by micro-wave irradiation are highlighted in Scheme 6.235 [418],... [Pg.255]

Scheme 6.236 /V-Acyliminium ion-based cyclizations leading to fused pyridones. Scheme 6.236 /V-Acyliminium ion-based cyclizations leading to fused pyridones.
Table 3 CL Determination of Inorganic Ions Based on Reduction Reaction... Table 3 CL Determination of Inorganic Ions Based on Reduction Reaction...
Yazbeck D, Durao P, Xie J, Tao J (2006) A high-throughput metal ion-based method for nitrilase screening. J Mol Cat B 39 156-159... [Pg.132]

See other pages where Ion-based is mentioned: [Pg.35]    [Pg.348]    [Pg.49]    [Pg.214]    [Pg.551]    [Pg.146]    [Pg.499]    [Pg.31]    [Pg.229]    [Pg.336]    [Pg.326]    [Pg.209]    [Pg.138]    [Pg.37]    [Pg.579]    [Pg.41]    [Pg.24]    [Pg.19]    [Pg.125]    [Pg.257]    [Pg.255]    [Pg.123]    [Pg.541]    [Pg.186]    [Pg.667]    [Pg.124]    [Pg.126]    [Pg.127]    [Pg.128]    [Pg.263]   
See also in sourсe #XX -- [ Pg.4 ]



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Acid-Base Properties and Ion-Dipole Interactions

Acid-Base Reactions of Complex Ions

Acid-base chemistry ammonium ions

Acid-base equilibria containing common ions

Acid-base equilibria hydrated metal ions

Acid-base equilibria hydronium ion

Acid-base equilibria ion-product constant for water

Acid-base interactions measurement metal ions

Acid-base reactions complex ions

Acid-base reactions hydroxide ions

Acids and Bases Forms of Ions in Aqueous Solution Ion Hydrolysis Compound Solubility

Acids, bases and ions in aqueous solution

Alkoxide ions as bases in elimination

Alkylation, enolate ions acid—base equilibria

Alkylation, enolate ions strong bases

Amide ion as base

Amphipathic Weak Base Loading into Preformed Liposomes Having a Transmembrane Ammonium Ion Gradient From the Bench to Approved Doxil

An Overview of Monodimensional Lanthanide Chains Based on Anisotropic Ions

Base damage detected by gas chromatography-mass spectrometry with selected ion monitoring

Base fluoride ion

Based on 3d-4f Ions

Bases acetate ions

Bases chloride ions

Bases hydrogen ions released

Bases hydroxyl ions

Bases, metal ions binding

Ceria-Based Oxide Ion Conductors

Common-Ion Effect in Acid-Base Equilibria

Covalent Molecules that Form Ions in Solution Acids and Bases

Discrimination of Ions Based on Diffusion Speed and Its Reduction in Field-Driven Systems

Extended Networks Based on Anisotropic Ions

Extraction of Metal Ions Based on Aqueous Biphasic Systems

Graphene-Based Materials Used as Electrodes in Ni-MH and Li-Ion Batteries

Group Ila metal ion complexes, effect base pairs

Hydrogen exchange, base-catalyzed azolium ions

Hydrogen ion acid-base reactions

Hydroxide ion Arrhenius acid-base definition and

Hydroxide ion as a base

Hydroxide ion as base

Hydroxide ions from base reacting with

Hydroxide ions from strong base

Hydroxide ions weak acid-strong base

Iminium ions imine conjugate bases

Ion Binding to Silicate-Based Minerals

Ion Extraction in Polyethylene Glycol Based-Aqueous Biphasic Systems

Ion bases

Ion-Based Liquid Crystals From Well-Defined Self-Organized Nanostructures to Applications

Ion-based assembly

Ion-based liquid crystal

Ion-based soft material

Ion-exchanger-based ISEs

Ions as Acids and Bases

Lewis acid-base definition complex ions

Lewis acid-base definition complex ions and

Ligation of zeolite exchanged transition ions with Schiff base-type ligands

Liquid-based ion-selective electrodes

Lithium ion batteries based

Lithium ions base-catalysed

Lonophore-based ion-selective electrodes

Membrane-based ion-selective electrodes

Metal ions alternative base pairs

Oligomers and Polymers based on Metal Ion-Pyridine Ligation

Orthosilicate-Based Cathode Materials for Lithium-Ion Batteries

Oxygen and Other Sensors Based on Fluoride Ion Conductors

Phosphonium ions based

Plasma-Based Ion Sources

Plasma-based ion plating

Reduced Graphene Oxide-Based Hybrid Materials for High-Rate Lithium-Ion Batteries

Regarding Acids, Bases, and Ions

SURFACE CHARACTERIZATION TECHNIQUES BASED ON ION BOMBARDMENT

Saturation of Ion Current and Discrimination Based on Focusing Strength

Selective chemical transduction based on chemoreceptive control of membrane ion permeability

Sensors based on ion-selective field-effect transistors

Solutions of Acids or Bases Containing a Common Ion

Source-Analyzer Interfaces Based on Ion Mobility

Strong bases Hydroxide ions

Strong-base ion exchange

Suppressor based ion chromatography

The Ion Activity Theory and Its Application to Acid-Base Equilibria

Thermotropic Liquid Crystals Based on Planar Ion Pairs

Vacuum-based ion plating

Weak base ion exchange

Yazami, A. Martinent and Y. Reynier haracterization of Anodes Based on Various Carbonaceous aterials for Application in Lithium-Ion Cells

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