Understanding and Improving the Kinetics of Bulk Carbonation on Sodium Carbonate by Tianyi Cai (1511026)

“…We find that the kinetics of Na₂CO₃ bulk carbonation is controlled by the <i>I</i>_H⁺/<i>V</i>_Na^– defect pair generation in Na₂CO₃; we predict that the kinetics can be enhanced by doping lithium into Na₂CO₃, which decreases the defect formation energy by 0.13 eV. …”

Understanding and Improving the Kinetics of Bulk Carbonation on Sodium Carbonate by Tianyi Cai (1511026)

“…We find that the kinetics of Na₂CO₃ bulk carbonation is controlled by the <i>I</i>_H⁺/<i>V</i>_Na^– defect pair generation in Na₂CO₃; we predict that the kinetics can be enhanced by doping lithium into Na₂CO₃, which decreases the defect formation energy by 0.13 eV. …”

Understanding and Improving the Kinetics of Bulk Carbonation on Sodium Carbonate by Tianyi Cai (1511026)

“…We find that the kinetics of Na₂CO₃ bulk carbonation is controlled by the <i>I</i>_H⁺/<i>V</i>_Na^– defect pair generation in Na₂CO₃; we predict that the kinetics can be enhanced by doping lithium into Na₂CO₃, which decreases the defect formation energy by 0.13 eV. …”

Understanding and Improving the Kinetics of Bulk Carbonation on Sodium Carbonate by Tianyi Cai (1511026)

“…We find that the kinetics of Na₂CO₃ bulk carbonation is controlled by the <i>I</i>_H⁺/<i>V</i>_Na^– defect pair generation in Na₂CO₃; we predict that the kinetics can be enhanced by doping lithium into Na₂CO₃, which decreases the defect formation energy by 0.13 eV. …”

Understanding and Improving the Kinetics of Bulk Carbonation on Sodium Carbonate by Tianyi Cai (1511026)

“…We find that the kinetics of Na₂CO₃ bulk carbonation is controlled by the <i>I</i>_H⁺/<i>V</i>_Na^– defect pair generation in Na₂CO₃; we predict that the kinetics can be enhanced by doping lithium into Na₂CO₃, which decreases the defect formation energy by 0.13 eV. …”

Investigating Cluster Formation in Adsorption of CO₂, CH₄, and Ar in Zeolites and Metal Organic Frameworks at Subcritical Temperatures by Rajamani Krishna (1411351)

“…In regions where molecular clustering occurs, the Fick diffusivity shows, in some cases, a decreasing trend with concentration.…”

Investigating Cluster Formation in Adsorption of CO₂, CH₄, and Ar in Zeolites and Metal Organic Frameworks at Subcritical Temperatures by Rajamani Krishna (1411351)

“…In regions where molecular clustering occurs, the Fick diffusivity shows, in some cases, a decreasing trend with concentration.…”

TDP-43 regulates <i>β-adducin</i> (<i>Add2</i>) transcript stability by Luisa Costessi (13445)

Investigating Cluster Formation in Adsorption of CO₂, CH₄, and Ar in Zeolites and Metal Organic Frameworks at Subcritical Temperatures by Rajamani Krishna (1411351)

“…In regions where molecular clustering occurs, the Fick diffusivity shows, in some cases, a decreasing trend with concentration.…”

Investigating Cluster Formation in Adsorption of CO₂, CH₄, and Ar in Zeolites and Metal Organic Frameworks at Subcritical Temperatures by Rajamani Krishna (1411351)

“…In regions where molecular clustering occurs, the Fick diffusivity shows, in some cases, a decreasing trend with concentration.…”

Investigating Cluster Formation in Adsorption of CO₂, CH₄, and Ar in Zeolites and Metal Organic Frameworks at Subcritical Temperatures by Rajamani Krishna (1411351)

“…In regions where molecular clustering occurs, the Fick diffusivity shows, in some cases, a decreasing trend with concentration.…”

Experimental Gastric Carcinogenesis in <i>Cebus apella</i> Nonhuman Primates by Joana de Fátima Ferreira Borges da Costa (212759)

“…In the second model, all animals developed pre-neoplastic lesions and five died of drug intoxication before the development of cancer. …”

Correlation between gene expression and genome alterations on the 6q regions. by Stéphanie Cornen (508055)

“…Red indicates increased copy number and green indicates decreased copy number. In the heatmap tumors are organized from the tumor that presented the most copy number losses to the tumor that exhibited the most copy number gains. …”

Mathematical modelling of Natural Killer Intracellular Mechanisms by Nurul Izza Ismail (4073296)

Supporting Data for Gradual Not Sudden Change: Multiple Sites of Functional Transition Across the Microvascular Bed by Kira Shaw (4467583)

Alternagin-C binding to α2β1 integrin controls matrix metalloprotease-9 and matrix metalloprotease-2 in breast tumor cells and endothelial cells by Milene Nóbrega de Oliveira Moritz (5313161)

Interactions of Prototype Foamy Virus Capsids with Host Cell Polo-Like Kinases Are Important for Efficient Viral DNA Integration by Irena Zurnic (3140055)

A simplified model for ePop function. by Philippe Marguet (244746)

“…Elevated plasmid levels increase E protein production. e. E protein decreases cell density by blocking cell-wall synthesis and lysing cells. …”

Gfi1 is required for the generation of LMPPs. by Jennifer Fraszczak (457829)

“…(K) HSC (Lin^-Sca1⁺c-Kit⁺Flt3^-), MPP (Lin^-Sca1⁺c-Kit⁺Flt3^low), LMPP (Lin^-Sca1⁺c-Kit⁺Flt3⁺) and CLP (Lin^-IL7R⁺Sca1⁺c-Kit⁺) were gated and analyzed for cell death by Annexin V staining. (L) Schematic representation of lymphoid development from Hematopoietic Stem Cells (HSC) to Pro B cells with the different steps including Multipotent Primed Progenitors (MPP), Lymphoid Primed Multipotent Progenitors (LMPP), Common Lymphoid Progenitors (CLP) and Pre-pro B cells. …”