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. …”

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)

<i>G</i>. <i>vaginalis</i> colonization of the CV space of timed-pregnant CD-1 mice. by Luz-Jeannette Sierra (134129)

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. …”

siRNA-mediated reductions in PPARγ increased HPAEC ET-1, proliferation, and miR-27a levels. by Bum-Yong Kang (350760)

“…Each bar represents the mean ± SE miR-27a relative to RNU6B expressed as fold changed vs. …”

Increase of <i>miR-129-5p</i> expression in Hela cells decreased HPV-18 <i>E6</i> and <i>E7</i> viral gene expressions. by Jiarong Zhang (223696)

Sequence of a virus telomere recovered from a sVAC^NM-Δ1Δ3–6 infected tail lesion. by Mira M. Shenouda (12245614)

Mean PANAS scores before (pre-test) and after (post-test) imagining negative risk consequences in Study 2. by Jakub Traczyk (714096)