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

“…The effect is not limited to reactants of limited water solubility, and, for example, net gold electrodeposition rates are up to 22% larger at fouled than clean electrodes. 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)

“…The effect is not limited to reactants of limited water solubility, and, for example, net gold electrodeposition rates are up to 22% larger at fouled than clean electrodes. 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)

“…The effect is not limited to reactants of limited water solubility, and, for example, net gold electrodeposition rates are up to 22% larger at fouled than clean electrodes. 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)

“…The effect is not limited to reactants of limited water solubility, and, for example, net gold electrodeposition rates are up to 22% larger at fouled than clean electrodes. 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)

“…The effect is not limited to reactants of limited water solubility, and, for example, net gold electrodeposition rates are up to 22% larger at fouled than clean electrodes. 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)

“…The effect is not limited to reactants of limited water solubility, and, for example, net gold electrodeposition rates are up to 22% larger at fouled than clean electrodes. 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. …”

Numerical data for S3A and S3D Fig. by Amy E. Schade (15368259)

“…Moreover, we find that the induction of one of these targets, <i>ATF3</i>, which is a broad stress response gene, is critical for the therapeutic response. …”

Fasting breath H₂ and gut microbiota metabolic potential are associated with the response to a fermented milk product in irritable bowel syndrome by Boris Le Nevé (6555629)

“…</p><p>Methods</p><p>We included 125 patients with IBS (Rome III). Fasted subjects were served a 400ml liquid test meal containing 25g lactulose. …”

General procedure for the synthesis of the target compounds 11a,b,15a,b. by Ahmed A. Gaber (13302308)

IgA/IgM and IgG/IgM ratios specific for antigens derived from intestinal microbiota are significantly decreased in intestinal secretions of HIV-1-infected individuals. by Zdenek Hel (337869)

Cyclopropane as an Unsaturation “Effect Isostere”: Lowering the Melting Points in Lipid-like Ionic Liquids by Richard A. O’Brien (1538818)

“…Inspired by this phenomenon, we herein address the relative effect of the cyclopropanation, both <i>cis</i> and <i>trans</i> configurations, on melting points, packing efficiency, and order of a series of lipid-like ionic liquids via a combination of thermophysical analysis, X-ray crystallography, and computational modeling. …”

Effect of perfusion with VEGF121 on outflow facility. by Tomokazu Fujimoto (709192)

Subjects: “…Vascular Endothelial Growth Factor-A Increases…”

mRNA expression of VEGF receptors in TM and SCE cells. by Tomokazu Fujimoto (709192)

Subjects: “…Vascular Endothelial Growth Factor-A Increases…”

The Effect of VEGF121 on TEER in SCE Cells. by Tomokazu Fujimoto (709192)

Subjects: “…Vascular Endothelial Growth Factor-A Increases…”

Effect of VEGF121 or VEGF165 on cell shape, F-actin structure, and junctional proteins in SCE cells. by Tomokazu Fujimoto (709192)

Subjects: “…Vascular Endothelial Growth Factor-A Increases…”

The Effect of VEGF121 on Outflow Facility in Porcine Eyes. by Tomokazu Fujimoto (709192)

Subjects: “…Vascular Endothelial Growth Factor-A Increases…”

Effect of VEGF receptor inhibitors on TEER in SCE cell monolayers. by Tomokazu Fujimoto (709192)

Subjects: “…Vascular Endothelial Growth Factor-A Increases…”

The Effect of VEGF121 on TEER in TM Cells. by Tomokazu Fujimoto (709192)

Subjects: “…Vascular Endothelial Growth Factor-A Increases…”

Effect of VEGF121 or VEGF165 on TEER in SCE cell monolayers. by Tomokazu Fujimoto (709192)

Subjects: “…Vascular Endothelial Growth Factor-A Increases…”

The Effect of VEGF165 on TEER in SCE Cells. by Tomokazu Fujimoto (709192)

Subjects: “…Vascular Endothelial Growth Factor-A Increases…”