Glycerol Effect on the Corrosion Resistance and Electrodeposition Conditions in a Zinc Electroplating Process by Michele David de Jesus Almeida (7292480)

“…The electrodeposition was performed on carbon steel AISI 1020 with a current density of 10 mA.cm-2. The electroplating solution composition was 0.10 M ZnCl2, 2.80 M KCl and 0.32 M H3BO3. …”

Self-Assembly of Reactive Linear Cu₃ Building Blocks for Supramolecular Coordination Chemistry and Their Reactivity toward E_<i>n</i> Ligand Complexes by Martin Fleischmann (2544508)

“…This study describes the selective synthesis of linear, trinuclear, halide-bridged Cu^I complexes [Cu₃(μ-X)₂(μ-dpmp)₂(MeCN)₂]⁺ (<b>1a</b>: X = Cl; <b>1b</b>: X = Br; <b>1c</b>: X = I) stabilized by the tridentate dpmp ligand obtained by self-assembly reactions in THF/MeCN. …”

Self-Assembly of Reactive Linear Cu₃ Building Blocks for Supramolecular Coordination Chemistry and Their Reactivity toward E_<i>n</i> Ligand Complexes by Martin Fleischmann (2544508)

“…This study describes the selective synthesis of linear, trinuclear, halide-bridged Cu^I complexes [Cu₃(μ-X)₂(μ-dpmp)₂(MeCN)₂]⁺ (<b>1a</b>: X = Cl; <b>1b</b>: X = Br; <b>1c</b>: X = I) stabilized by the tridentate dpmp ligand obtained by self-assembly reactions in THF/MeCN. …”

Self-Assembly of Reactive Linear Cu₃ Building Blocks for Supramolecular Coordination Chemistry and Their Reactivity toward E_<i>n</i> Ligand Complexes by Martin Fleischmann (2544508)

“…This study describes the selective synthesis of linear, trinuclear, halide-bridged Cu^I complexes [Cu₃(μ-X)₂(μ-dpmp)₂(MeCN)₂]⁺ (<b>1a</b>: X = Cl; <b>1b</b>: X = Br; <b>1c</b>: X = I) stabilized by the tridentate dpmp ligand obtained by self-assembly reactions in THF/MeCN. …”

Self-Assembly of Reactive Linear Cu₃ Building Blocks for Supramolecular Coordination Chemistry and Their Reactivity toward E_<i>n</i> Ligand Complexes by Martin Fleischmann (2544508)

“…This study describes the selective synthesis of linear, trinuclear, halide-bridged Cu^I complexes [Cu₃(μ-X)₂(μ-dpmp)₂(MeCN)₂]⁺ (<b>1a</b>: X = Cl; <b>1b</b>: X = Br; <b>1c</b>: X = I) stabilized by the tridentate dpmp ligand obtained by self-assembly reactions in THF/MeCN. …”

Self-Assembly of Reactive Linear Cu₃ Building Blocks for Supramolecular Coordination Chemistry and Their Reactivity toward E_<i>n</i> Ligand Complexes by Martin Fleischmann (2544508)

“…This study describes the selective synthesis of linear, trinuclear, halide-bridged Cu^I complexes [Cu₃(μ-X)₂(μ-dpmp)₂(MeCN)₂]⁺ (<b>1a</b>: X = Cl; <b>1b</b>: X = Br; <b>1c</b>: X = I) stabilized by the tridentate dpmp ligand obtained by self-assembly reactions in THF/MeCN. …”

Self-Assembly of Reactive Linear Cu₃ Building Blocks for Supramolecular Coordination Chemistry and Their Reactivity toward E_<i>n</i> Ligand Complexes by Martin Fleischmann (2544508)

“…This study describes the selective synthesis of linear, trinuclear, halide-bridged Cu^I complexes [Cu₃(μ-X)₂(μ-dpmp)₂(MeCN)₂]⁺ (<b>1a</b>: X = Cl; <b>1b</b>: X = Br; <b>1c</b>: X = I) stabilized by the tridentate dpmp ligand obtained by self-assembly reactions in THF/MeCN. …”

Self-Assembly of Reactive Linear Cu₃ Building Blocks for Supramolecular Coordination Chemistry and Their Reactivity toward E_<i>n</i> Ligand Complexes by Martin Fleischmann (2544508)

“…This study describes the selective synthesis of linear, trinuclear, halide-bridged Cu^I complexes [Cu₃(μ-X)₂(μ-dpmp)₂(MeCN)₂]⁺ (<b>1a</b>: X = Cl; <b>1b</b>: X = Br; <b>1c</b>: X = I) stabilized by the tridentate dpmp ligand obtained by self-assembly reactions in THF/MeCN. …”

Self-Assembly of Reactive Linear Cu₃ Building Blocks for Supramolecular Coordination Chemistry and Their Reactivity toward E_<i>n</i> Ligand Complexes by Martin Fleischmann (2544508)

“…This study describes the selective synthesis of linear, trinuclear, halide-bridged Cu^I complexes [Cu₃(μ-X)₂(μ-dpmp)₂(MeCN)₂]⁺ (<b>1a</b>: X = Cl; <b>1b</b>: X = Br; <b>1c</b>: X = I) stabilized by the tridentate dpmp ligand obtained by self-assembly reactions in THF/MeCN. …”

Self-Assembly of Reactive Linear Cu₃ Building Blocks for Supramolecular Coordination Chemistry and Their Reactivity toward E_<i>n</i> Ligand Complexes by Martin Fleischmann (2544508)

“…This study describes the selective synthesis of linear, trinuclear, halide-bridged Cu^I complexes [Cu₃(μ-X)₂(μ-dpmp)₂(MeCN)₂]⁺ (<b>1a</b>: X = Cl; <b>1b</b>: X = Br; <b>1c</b>: X = I) stabilized by the tridentate dpmp ligand obtained by self-assembly reactions in THF/MeCN. …”

Self-Assembly of Reactive Linear Cu₃ Building Blocks for Supramolecular Coordination Chemistry and Their Reactivity toward E_<i>n</i> Ligand Complexes by Martin Fleischmann (2544508)

“…This study describes the selective synthesis of linear, trinuclear, halide-bridged Cu^I complexes [Cu₃(μ-X)₂(μ-dpmp)₂(MeCN)₂]⁺ (<b>1a</b>: X = Cl; <b>1b</b>: X = Br; <b>1c</b>: X = I) stabilized by the tridentate dpmp ligand obtained by self-assembly reactions in THF/MeCN. …”

Self-Assembly of Reactive Linear Cu₃ Building Blocks for Supramolecular Coordination Chemistry and Their Reactivity toward E_<i>n</i> Ligand Complexes by Martin Fleischmann (2544508)

“…This study describes the selective synthesis of linear, trinuclear, halide-bridged Cu^I complexes [Cu₃(μ-X)₂(μ-dpmp)₂(MeCN)₂]⁺ (<b>1a</b>: X = Cl; <b>1b</b>: X = Br; <b>1c</b>: X = I) stabilized by the tridentate dpmp ligand obtained by self-assembly reactions in THF/MeCN. …”

Self-Assembly of Reactive Linear Cu₃ Building Blocks for Supramolecular Coordination Chemistry and Their Reactivity toward E_<i>n</i> Ligand Complexes by Martin Fleischmann (2544508)

“…This study describes the selective synthesis of linear, trinuclear, halide-bridged Cu^I complexes [Cu₃(μ-X)₂(μ-dpmp)₂(MeCN)₂]⁺ (<b>1a</b>: X = Cl; <b>1b</b>: X = Br; <b>1c</b>: X = I) stabilized by the tridentate dpmp ligand obtained by self-assembly reactions in THF/MeCN. …”

Self-Assembly of Reactive Linear Cu₃ Building Blocks for Supramolecular Coordination Chemistry and Their Reactivity toward E_<i>n</i> Ligand Complexes by Martin Fleischmann (2544508)

“…This study describes the selective synthesis of linear, trinuclear, halide-bridged Cu^I complexes [Cu₃(μ-X)₂(μ-dpmp)₂(MeCN)₂]⁺ (<b>1a</b>: X = Cl; <b>1b</b>: X = Br; <b>1c</b>: X = I) stabilized by the tridentate dpmp ligand obtained by self-assembly reactions in THF/MeCN. …”

Finite-size effects in the AdEx network on E-I oscillation amplitudes. by Caglar Cakan (8755440)

“…<b>(b)</b> The left panel shows the mean amplitude and the standard deviation as a function of the population size <i>N</i> on a semi-logarithmic scale. …”

Trend surface models of 2005 district-level JE incidence as a function of temperature and precipitation. by Daniel E. Impoinvil (213005)

“…</p>†<p>All regression β coefficients represent a non-linear increase (or decrease when the coefficient value is negative) in JE incidence when there is a 1-unit increase in each respective predictor variable.…”

Influence of group, environment, season and size on feeding behaviour. by Emmanuel Corse (402278)

The differences between 8-week-old K14-VEGF mice and WT mice. by Xuguo Wang (839264)

Association between waterthrush demographic response (i.e., clutch size, number of fledglings, territory length and territory density) and its aquatic prey in spatial generalized l... by Mack W. Frantz (6018740)

“…Results with ^P are from a Poisson model. P values of variables that are statistically significant are bolded. …”

Data_Sheet_1_Age-Related Variations in Regional White Matter Volumetry and Microstructure During the Post-adolescence Period: A Cross-Sectional Study of a Cohort of 1,713 Universit... by Ami Tsuchida (8795099)

“…There are regional variations in these microstructural changes: some tracts, most notably cingulum bundles, show a strong age-related increase in NDI coupled with decreases in radial and mean diffusivity, while others, mainly cortico-spinal projection tracts, primarily show an ODI increase and axial diffusivity decrease. …”