Kinetics rapid

Anhydrides and esters may differ in two ways. One may undergo nucleophilic addition more rapidly (kinetics), but the other may create a more favorable equilibrium constant for ester formation (thermodynamics). 

Loschen, G., and Chance, B. (1971). Rapid kinetic studies of the light emitting protein aequorin. Nature New Biology 233 273-274. 

The decomposition kinetics of the N-Br-amino acids was studied spectro-photometrically by following the fall in absorbance at the wavelength of the absorbance maximum of the N-bromoamino acid, in a Milton Roy Spectronic 3000 Array or a Beckman DU65 single-beam spectrophotometer, both equipped with a cell carrier thermostated to within 0.1 °C by water flow. Kinetic experiments were initiated using a hand-driven HI-TECH SFA-12 Rapid Kinetics Accessory with a 1.00 cm flow cell. 

Wei-Ping won the bet. A series of rapid kinetic experiments provided strong support for the concept of two independent active sites. CODH/ACS was reacted with CO and the rate of development of each of the enzyme s characteristic EPR signals was compared with the rates of CO oxidation and acetyl-CoA synthesis. On the basis of these... 

The formation of nitrosamines in aprotic solvents has applicability to many practical lipophilic systems including foods (particularly bacon), cigarette smoke, cosmetics, and some drugs. The very rapid kinetics of nitrosation reactions in lipid solution indicates that the lipid phase of emulsions or analogous multiphase systems can act as "catalyst" to facilitate nitrosation reactions that may be far slower in purely aqueous media (41, 53, 54). This is apparently true in some cosmetic emulsion systems and may have important applicability to nitrosation reactions in vivo, particularly in the GI tract. In these multiphase systems, the pH of the aqueous phase may be poor for nitrosation in aqueous media (e.g., neutral or alkaline pH) because of the very small concentration of HONO or that can exist at these pH ranges. 

The AMPA receptors mediate the majority of fast excitatory neurotransmission in the mammalian brain. The rapid kinetics and the low Ca permeability make these receptors ideal for fast neurotransmission without sufficient changes in the intracellular calcium concentration to activate Ca2+-dependent processes. The NMDA receptors are co-localized with the AMPA receptors on many synapses, but the slow kinetics of the NMDA receptor minimize the receptor activation after a single presynaptic glutamate release where the neuron quickly repolarizes, resulting in Mg2+ block... 

Recently, rapid kinetics have been observed in anisotropy measurements applied to the P and B bands [10,21,31,39,51], It is found that prior to ET, there exist a few steps in the P and B bands. These measurements provide detailed information on the P and B bands, especially for the nature of the electronic... 

Note that the usage of 10-fs laser pulse leads to rich oscillatory components as well as these rapid kinetics in their pump-probe time-resolved profiles. Obviously in this timescale, the temperature T will have no meaning except for the initial condition before the pumping process. In addition, such oscillatory components may be due not only to vibrational coherence but also to electronic coherence. A challenging theoretical question may arise, for such a case, as to how one can describe these ultrafast processes theoretically. 

In order to determine the physical mechanism of initial ET including other rapid kinetics in photosynthetic RCs, it is necessary to construct a vibronic model that comprises the electronic and vibrational states of the system. It is also important to take into account temperature effect in both experiments and theories. In particular, we should stress that most of MO calculations carried out for RCs are based on the crystallographic structures. However, the structure at room temperature may be different from that obtained from the X-ray analysis,... 

Refueling time About 3 min Rapid kinetic properties... 

The condensation chemistry allows films of various compositions, as the addition of sulfate renders the materials amorphous over a range of concentrations as implied by the acronym HafSOx, where x typically assumes values of 0.3-1 (refer to Fig. 4.3, where the top reaction sequence represents x = 0.5.) The amorphous character and structural integrity are retained until the material decomposes with stoichiometric loss of S03(g) at approximately 700 °C. The smoothness and uniformity of deposited films are illustrated by the Scanning electron microscope (SEM) images in Fig. 4.4. Rapid kinetics, absence of organics, and facile condensation all play important roles in the deposition of these dense HafSOx films. 

When the kinetics of a sorption process do appear to separate according to very small and very large time scales, the almost universal inference made is that pure adsorption is reflected by the rapid kinetics (16,21,22,26). The slow kinetics are interpreted either in terms of surface precipitation (20) or diffusion of the adsorbate into the adsorbent (16,24). With respect to metal cation sorption, "rapid kinetics" refers to time scales of minutes (16,26), whereas for anion sorption it refers to time scales up to hours TT, 21). The interpretation of these time scales as characteristic of adsorption rests almost entirely on the premise that surface phenomena involve little in the way of molecular rearrangement and steric hindrance effects (16,21). 

One excitation and one emission wavelengths can be used for following rapid kinetics but unlike the ratiometric methods, this technique does not yield absolute values. 

Some limitations of this molecular imprinting technique are obvious the template must be available in preparative amounts, it must be soluble in the monomer mixture and it must be stable and unreactive under the conditions of the polymerization. The solvent must be chosen considering the stability of the monomer-template assemblies and it should result in the porous structure necessary for rapid kinetics of the template interaction with the binding sites. If these criteria are satisfied, a robust material capable of selectively rebinding the template can be easily prepared and evaluated in a short period of time. 

As the above discussion indicates, assigning mechanisms to simple anation reactions of transition metal complexes is not simple. The situation becomes even more difficult for a complex enzyme system containing a metal cofactor at an active site. Methods developed to study the kinetics of enzymatic reactions according to the Michaelis-Menten model will be discussed in Section 2.2.4. Since enzyme-catalyzed reactions are usually very fast, experimentahsts have developed rapid kinetic techniques to study them. Techniques used by bioinorganic chemists to study reaction rates will be further detailed in Section 3.7.2.1 and 3.72.2. 

The cathode materials employed for the early lithium-based systems were 3.0 V class oxides or sulfides thus, the redox potential for the additive should be located in the neighborhood of 3.2—3.5 V. Accordingly, the first generation redox additive proposed by Abraham et al. was based on the iodine/ iodide couple, which could be oxidatively activated at the cathode surface at 3.20 V and then reduced at the lithium surface. " " " 2° For most of the ether-based solvents such as THF or DME that were used at the time, the oxidation potential of iodide or triiodide occurred below that of their major decompositions, while the high diffusion coefficients of both iodine and iodide in these electrolyte systems ( 3 x 10 cm s ) offered rapid kinetics to shuttle the overcharge current. Similarly, bromides were also proposed.Flowever, this class of halide-based additives were deemed impractical due to the volatility and reactivity of their oxidized forms (halogen). 

Fig. 6.8 Breakthrough curves for ligands infused through an estrogen receptor p FAC assay. Slow tight-binding ligands (nafoxidine and tamoxifen) exhibit diffuse breakthrough curves, while ligands with rapid kinetics exhibit sharper curves (norethindrone). Dehydroisoandro-sterone, a ligand intermediate between norethindrone and nafoxidine, was undetected in this experiment.

Effect of pH on Lignin Peroxidase Catalysis. The oxidation of organic substrates by lignin peroxidase (Vmax) has a pH optimum equal to or possibly below 2. Detailed studies have been performed on the pH dependency of many of the individual reactions involved in catalysis. The effect of pH on the reaction rates between the isolated ferric enzyme, compounds I or II and their respective substrates has been studied. Rapid kinetic data indicate that compound I formation from ferric enzyme and H2O2 is not pH dependent from pH 2.5-7.5 (75,16). Similar results are obtained with Mn-dependent peroxidase (14). This is in contrast to other peroxidases where the pKa values for the reaction of ferric enzyme with H2O2 are usudly in the range of 3 to 6 (72). 

The period that elapses before two or more solutions are thoroughly mixed in a chemical kinetic experiment. In most manually controlled chemical kinetic studies, the mixing time is rarely a factor affecting accurate data acquisition however, the mixing time can be significant in rapid kinetic processes studied by continuous and stopped-flow kinetic techniques. 

On Pt-Sn, assuming that ethanol adsorbs only on platinum sites, the first step can be the same as for platinum alone. However, as was shown by SNIFTIRS experiments [37], the dissociative adsorption of ethanol on a PtSn catalyst to form adsorbed CO species takes place at lower potentials than on a Pt catalyst, between 0.1 and 0.3 V vs RHE, whereas on a Pt catalyst the dissociative adsorption of ethanol takes place at potentials between 0.3 and 0.4 V vs RHE. Hence it can be stated that the same reactions occur at lower potentials and with relatively rapid kinetics. Once intermediate species such as Pt-(COCH3)adsand Pt-(CO)ads are formed, they can be oxidized at potentials close to 0.3 V vs RHE, as confirmed by CO stripping experiments, because OH species are formed on tin at lower potentials [39, 40] ... 

---