How To Use Bimolecular In A Sentence
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In this case the precursors are mixed just before entering the deposition chamber and the heat of the chamber encourages a gas phase bimolecular reaction.
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Nucleophilic substitution reactions can be either unimolecular or bimolecular.
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A bimolecular decay is used to explain the dependence of dynamics of the Kerr signal on the incident light intensity.
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The results indicate that also in viscous solutions, where bimolecular quenching reactions are inhibited, deuteration of the ring nitrogen does not affect the lifetime of NATA.
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The J factors, which are defined as the ratios of equilibrium constants for ligatable unimolecular and bimolecular forms with cohesive ends hybridized, are measured from their ligation rates under certain conditions.
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It is known to strongly influence the kinetics of diffusion-controlled bimolecular reactions in liquids.
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We were able to eliminate this heterogeneity in our samples to obtain a simpler two-phase form for the bimolecular kinetics.
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If the amines were acting as the hydrogen bond acceptors, the bimolecular quenching constants would be expected to increase with basicity of the amines, i.e. for amines with lower pK b values.
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The binding of particles to filaments is a simple bimolecular reaction, for which the binding rate is a product of the concentrations of free particle and free binding sites and nonlinear in the above sense.
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The bimolecular rate constants for these reactions are of several orders of magnitude less than diffusion controlled.
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The Stern-Volmer plot of these solutions is linear, and the bimolecular reaction rate constant agrees with previous observations.
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The rate of formation of triple helices is slow with bimolecular rate constants of 5.6 × 10 and 8.1 × 10 min - 1 M - 1.
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The reactive collision of more than two molecules at the exact time is unlikely and can be represented as the sequence of bimolecular collisions.
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Preceding any associative protein-protein reaction, an initial diffusional encounter is required, which may limit or at least partially influence the bimolecular rate constant.
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Understanding the molecular mechanisms of unimolecular and bimolecular misfolding may lead to advances in biomedicine and in protein production improvements.
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We expect that our cell will be useful for observing the pressure dependence of bimolecular interactions on the single molecule level.
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Specific bimolecular interactions are central to virtually all biological processes.
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We are aware that a palindromic circle (as well as a direct repeat circle) could form by a bimolecular reaction.
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The rate of a reaction with a bimolecular rate law depends on the concentration of two species or the square of the concentration of one species.
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On a theoretical point of view, the understanding of enzyme reactions is hardly reducible to elementary bimolecular reactions.
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At the high concentrations used in this experiment, it is expected that very small signals would be observed from the bimolecular formation of the encounter complex.
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Initial contact will be through a conventional bimolecular binding and occur at a rate proportional to the concentration of freely diffusing molecules.
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An initial exponential decay of current corresponds to the inactivation of monomer channel conductance and a longer time scale quasi-steady-state represents the diffusion of ions to a bimolecular surface reaction.
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A simple bimolecular one-step kinetic model is used for estimating the upper bound of the number of ROS that are generated in the skin and that react with DHR.
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Depict the influence on the plant cellular, caused by the added high electrostatic field, by the bimolecular lipid membranes, and deduce the micro principles.
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The bimolecular quenching rate constants are less than that of diffusion controlled and decrease as the one-electron reduction potential of the donor radical increases.
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Basic assumptions were that all elementary reactions in the pathway were bimolecular and that the reacting species were distributed homogeneously.
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Understanding the molecular mechanisms of unimolecular and bimolecular misfolding may lead to advances in biomedicine and in protein production improvements.
