Degree-Days Accumulation at Erie PA and Stuarts Draft VA under the Same Mean with Various DTR Change Conditions. by Shi Chen (120917)

“…With same mean temperature, the larger the DTR, the more degree-days can be accumulated in a day.…”

Mean values of the percentage MNCV at different time durations before and following the application of the 14 cm and 7 cm cuff by Parul Mittal (86140)

Optimal Treatment Strategies in the Context of ‘Treatment for Prevention’ against HIV-1 in Resource-Poor Settings by Sulav Duwal (152805)

“…We use this platform to optimize two distinct approaches for the treatment of HIV-1: (i) a diagnostic-guided treatment strategy, based on infrequent and patient-specific diagnostic schedules and (ii) a pro-active strategy that allows treatment adaptation prior to diagnostic ascertainment. …”

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

Relaxation towards the steady state activity. by Grégory Dumont (4336660)

Simvastatin alters actin organization, cell morphology, and Rac1 activity in endothelial monolayers. by Marsha C. Lampi (845609)

“…Cell circularity, where a perfectly circular cell has a value of 1, decreases with increasing simvastatin concentration (n = 3, 50–54 cells per condition). …”

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. …”

Size Control in the Colloidal Synthesis of Plasmonic Magnesium Nanoparticles by Elizabeth R. Hopper (11884126)

“…Intermediate sizes up to 400 nm were further selected via the overall reaction concentration or using other metal salt additives with different reduction potentials. Significantly larger particles of over a micrometer were produced by reducing the reaction temperature and, thus, the nucleation rate. …”