A noxious temperature decrease without a prior increase produces a subtly larger decrease in pain intensity. by Benedict J. Alter (9745466)

Post-RARP urinary continence recovery stratified by voided volume change. by Yuta Takeshima (818627)

Insulator-on-Conductor Fouling Amplifies Aqueous Electrolysis Rates by Harry Morris Rodriguez (18331235)

“…In a system involving a surface-active reactant, rate augmentation is driven by the synergy between insulator-confined reactant enrichment and insulator-induced current crowding, whereas only the latter and possibly localized decrease in <i>iR</i> drop near the insulator are relevant in a system composed of non-surface-active species. …”

Insulator-on-Conductor Fouling Amplifies Aqueous Electrolysis Rates by Harry Morris Rodriguez (18331235)

“…In a system involving a surface-active reactant, rate augmentation is driven by the synergy between insulator-confined reactant enrichment and insulator-induced current crowding, whereas only the latter and possibly localized decrease in <i>iR</i> drop near the insulator are relevant in a system composed of non-surface-active species. …”

Insulator-on-Conductor Fouling Amplifies Aqueous Electrolysis Rates by Harry Morris Rodriguez (18331235)

“…In a system involving a surface-active reactant, rate augmentation is driven by the synergy between insulator-confined reactant enrichment and insulator-induced current crowding, whereas only the latter and possibly localized decrease in <i>iR</i> drop near the insulator are relevant in a system composed of non-surface-active species. …”

Insulator-on-Conductor Fouling Amplifies Aqueous Electrolysis Rates by Harry Morris Rodriguez (18331235)

“…In a system involving a surface-active reactant, rate augmentation is driven by the synergy between insulator-confined reactant enrichment and insulator-induced current crowding, whereas only the latter and possibly localized decrease in <i>iR</i> drop near the insulator are relevant in a system composed of non-surface-active species. …”

Insulator-on-Conductor Fouling Amplifies Aqueous Electrolysis Rates by Harry Morris Rodriguez (18331235)

“…In a system involving a surface-active reactant, rate augmentation is driven by the synergy between insulator-confined reactant enrichment and insulator-induced current crowding, whereas only the latter and possibly localized decrease in <i>iR</i> drop near the insulator are relevant in a system composed of non-surface-active species. …”

Insulator-on-Conductor Fouling Amplifies Aqueous Electrolysis Rates by Harry Morris Rodriguez (18331235)

“…In a system involving a surface-active reactant, rate augmentation is driven by the synergy between insulator-confined reactant enrichment and insulator-induced current crowding, whereas only the latter and possibly localized decrease in <i>iR</i> drop near the insulator are relevant in a system composed of non-surface-active species. …”

Insulator-on-Conductor Fouling Amplifies Aqueous Electrolysis Rates by Harry Morris Rodriguez (18331235)

“…In a system involving a surface-active reactant, rate augmentation is driven by the synergy between insulator-confined reactant enrichment and insulator-induced current crowding, whereas only the latter and possibly localized decrease in <i>iR</i> drop near the insulator are relevant in a system composed of non-surface-active species. …”

Insulator-on-Conductor Fouling Amplifies Aqueous Electrolysis Rates by Harry Morris Rodriguez (18331235)

“…In a system involving a surface-active reactant, rate augmentation is driven by the synergy between insulator-confined reactant enrichment and insulator-induced current crowding, whereas only the latter and possibly localized decrease in <i>iR</i> drop near the insulator are relevant in a system composed of non-surface-active species. …”

Insulator-on-Conductor Fouling Amplifies Aqueous Electrolysis Rates by Harry Morris Rodriguez (18331235)

“…In a system involving a surface-active reactant, rate augmentation is driven by the synergy between insulator-confined reactant enrichment and insulator-induced current crowding, whereas only the latter and possibly localized decrease in <i>iR</i> drop near the insulator are relevant in a system composed of non-surface-active species. …”

<i>E</i>. <i>coli</i> C deep rough LPS mutants show increased susceptibility to chloramphenicol and gentamicin. by Lavisha Parab (14248215)

Taste sensilla in the wing and RNA-seq screen of control and <i>Poxn</i> wings. by Zhe He (508742)

Changes in the flow rate and flow directions owing to the presence of the PCV. by Kazuki Sugiyama (1433809)

Percent change in yearly crude rates (between 2019 and 2021 and between 2019 and 2024) by gender and state. by Tony Wong (779773)

Mechanism of Peroxynitrite Interaction with Ferric <i>M. tuberculosis</i> Nitrobindin: A Computational Study by Andresa Messias (14384003)

“…The value of the second-order rate constant of Nbs increases as the pH decreases; this suggests that Nb(III) preferentially reacts with peroxynitrous acid (ONOOH), although ONOO^– is more nucleophilic. …”

Mechanism of Peroxynitrite Interaction with Ferric <i>M. tuberculosis</i> Nitrobindin: A Computational Study by Andresa Messias (14384003)

“…The value of the second-order rate constant of Nbs increases as the pH decreases; this suggests that Nb(III) preferentially reacts with peroxynitrous acid (ONOOH), although ONOO^– is more nucleophilic. …”

Density of the dominant population as a function of the dilution rate, <i>w</i>. by Juan A. Bonachela (3264462)

Transport by facilitated diffusion can exhibit a rate-affinity tradeoff. by Luis Fernando Montaño-Gutierrez (12456453)

Mean value of the longitudinal scaling exponent as a function of the growth rate threshold <i>b</i>_<i>c</i>. by Fabiano L. Ribeiro (4893388)

“…The mean value of decreases drastically as <i>b</i>_<i>c</i> increases. …”