Global Land Use Change Impacts on Soil Nitrogen Availability and Environmental Losses by Jing Wang (6206297)

Temporal profiles of the key BO-NN features. by Julia Berezutskaya (9080269)

Expanding Three-Coordinate Gold(I) Anticancer Agent Chemical Space by Charles E. Greif (21728091)

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The rates of hydrolysis at acidic pH* decreased when the primary amine N-donors (NN = en, <i>t</i>_1/2 = 0.6 h at 318 K) are replaced with π-accepting pyridine groups (e.g., NN = phen, <i>t</i>_1/2 = 9.5 h at 318 K). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The rates of hydrolysis at acidic pH* decreased when the primary amine N-donors (NN = en, <i>t</i>_1/2 = 0.6 h at 318 K) are replaced with π-accepting pyridine groups (e.g., NN = phen, <i>t</i>_1/2 = 9.5 h at 318 K). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The rates of hydrolysis at acidic pH* decreased when the primary amine N-donors (NN = en, <i>t</i>_1/2 = 0.6 h at 318 K) are replaced with π-accepting pyridine groups (e.g., NN = phen, <i>t</i>_1/2 = 9.5 h at 318 K). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The rates of hydrolysis at acidic pH* decreased when the primary amine N-donors (NN = en, <i>t</i>_1/2 = 0.6 h at 318 K) are replaced with π-accepting pyridine groups (e.g., NN = phen, <i>t</i>_1/2 = 9.5 h at 318 K). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The rates of hydrolysis at acidic pH* decreased when the primary amine N-donors (NN = en, <i>t</i>_1/2 = 0.6 h at 318 K) are replaced with π-accepting pyridine groups (e.g., NN = phen, <i>t</i>_1/2 = 9.5 h at 318 K). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The rates of hydrolysis at acidic pH* decreased when the primary amine N-donors (NN = en, <i>t</i>_1/2 = 0.6 h at 318 K) are replaced with π-accepting pyridine groups (e.g., NN = phen, <i>t</i>_1/2 = 9.5 h at 318 K). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The rates of hydrolysis at acidic pH* decreased when the primary amine N-donors (NN = en, <i>t</i>_1/2 = 0.6 h at 318 K) are replaced with π-accepting pyridine groups (e.g., NN = phen, <i>t</i>_1/2 = 9.5 h at 318 K). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The rates of hydrolysis at acidic pH* decreased when the primary amine N-donors (NN = en, <i>t</i>_1/2 = 0.6 h at 318 K) are replaced with π-accepting pyridine groups (e.g., NN = phen, <i>t</i>_1/2 = 9.5 h at 318 K). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The rates of hydrolysis at acidic pH* decreased when the primary amine N-donors (NN = en, <i>t</i>_1/2 = 0.6 h at 318 K) are replaced with π-accepting pyridine groups (e.g., NN = phen, <i>t</i>_1/2 = 9.5 h at 318 K). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The rates of hydrolysis at acidic pH* decreased when the primary amine N-donors (NN = en, <i>t</i>_1/2 = 0.6 h at 318 K) are replaced with π-accepting pyridine groups (e.g., NN = phen, <i>t</i>_1/2 = 9.5 h at 318 K). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The rates of hydrolysis at acidic pH* decreased when the primary amine N-donors (NN = en, <i>t</i>_1/2 = 0.6 h at 318 K) are replaced with π-accepting pyridine groups (e.g., NN = phen, <i>t</i>_1/2 = 9.5 h at 318 K). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The rates of hydrolysis at acidic pH* decreased when the primary amine N-donors (NN = en, <i>t</i>_1/2 = 0.6 h at 318 K) are replaced with π-accepting pyridine groups (e.g., NN = phen, <i>t</i>_1/2 = 9.5 h at 318 K). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The rates of hydrolysis at acidic pH* decreased when the primary amine N-donors (NN = en, <i>t</i>_1/2 = 0.6 h at 318 K) are replaced with π-accepting pyridine groups (e.g., NN = phen, <i>t</i>_1/2 = 9.5 h at 318 K). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The rates of hydrolysis at acidic pH* decreased when the primary amine N-donors (NN = en, <i>t</i>_1/2 = 0.6 h at 318 K) are replaced with π-accepting pyridine groups (e.g., NN = phen, <i>t</i>_1/2 = 9.5 h at 318 K). …”

Heart rate variability in type 2 diabetes mellitus: A systematic review and meta–analysis by Thomas Benichou (5047928)

Intracellular Delivery of Bioactive Molecules using Light-Addressable Nanocapsules by Kimberly A. D. Gregersen (2241349)

Coarse-grained model leads to collective behavior. by Giovanna De Palo (476510)

“…For cell size, we used the volume exclusion length of 3 μm. (see <a href="http://www.plosbiology.org/article/info:doi/10.1371/journal.pbio.1002602#sec010" target="_blank">Materials and methods</a>). …”