Sustainable Sea of Internet of Things: Wind Energy Harvesting System for Unmanned Surface Vehicles by Hao Cao (2248066)

“…To address these issues, this paper proposes a wind energy harvesting system with a self-regulation strategy based on piezoelectric and electromagnetic effects to achieve state monitoring for unmanned surface vehicles (USVs). …”

Sustainable Sea of Internet of Things: Wind Energy Harvesting System for Unmanned Surface Vehicles by Hao Cao (2248066)

“…To address these issues, this paper proposes a wind energy harvesting system with a self-regulation strategy based on piezoelectric and electromagnetic effects to achieve state monitoring for unmanned surface vehicles (USVs). …”

Sustainable Sea of Internet of Things: Wind Energy Harvesting System for Unmanned Surface Vehicles by Hao Cao (2248066)

“…To address these issues, this paper proposes a wind energy harvesting system with a self-regulation strategy based on piezoelectric and electromagnetic effects to achieve state monitoring for unmanned surface vehicles (USVs). …”

Sustainable Sea of Internet of Things: Wind Energy Harvesting System for Unmanned Surface Vehicles by Hao Cao (2248066)

“…To address these issues, this paper proposes a wind energy harvesting system with a self-regulation strategy based on piezoelectric and electromagnetic effects to achieve state monitoring for unmanned surface vehicles (USVs). …”

PolyP mutants display different survival rate in NHS, inversely correlating with complement fixation. by Benedetta Manca (15810991)

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. …”

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. …”

Soluble polyP restores survival in NHS and blocks complement deposition on serum sensitive F62 strain. by Benedetta Manca (15810991)

For maize, iNUE relative to increasing nitrogen fertilizer rate is not static. by Newell R. Kitchen (12530448)

Activity relative deviation values for every experimental set-up, detector and source combination plotted against the respective SNR values. by Antanas Bukartas (10023785)

Density of <i>w</i>AlbA <i>Wolbachia</i> in wild caught <i>Ae</i>. <i>albopictus</i> males from two Italian sites (Crevalcore, CRE, Bologna; Anguillara Sabazia, ANG, Rome) and two... by Maurizio Calvitti (712990)

“…CI level is expected to decrease to about 68% in crosses between AR<i>w</i>P females and males with <i>w</i>AlbA density values <0.001 <i>w</i>AlbA/act.…”

Boxplots of the estrous cycle classifications for each treatment. by Anna H. Le (621100)

Boxplots of the estrous cycle length in days taken from daily vaginal cytology for each time block after surgery. by Anna H. Le (621100)