Proximity to forests, disturbance and plantation traits influence understory species richness but not phylogenetic diversity in African mahogany plantations by Orou Gaoue (425406)

Relates to Fig 2. by He Liu (67509)

“…There was no difference in Nighttime <i>I–V</i> relationship between the stress phenotypes (bottom right). …”

Supplementary material: Evaluation of inpatient and emergency department healthcare resource utilization and costs pre- and post-nusinersen for the treatment of spinal muscular atr... by Cong Zhu (1859428)

Sensitivity analysis of the results of Fig 3, for the high school contact network, w.r.t. graph of persistent contacts. by Simon Mauras (11337066)

“…Part (b) is a construction of what we call a <i>best friends</i> graph, constructed in the following two steps: First, each person lists their neighbor by order of decreasing number of contacts, stopping as soon as they reach 25% or their total number of contacts. …”

THE IMPACT OF CLIMATE CHANGE ON THE ADAPTATION OF LOCAL CROP YIELD IN MAYUKWAYUKWA SETTLEMENT OF KAOMA DISTICT IN WESTERN PROVINCE by Chikondi Mbewe (17419309)

The dataset containing all relevant data. by Lisanne Hendriks (18625653)

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. …”

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. …”

SHOCK-D-18-00340-1.pdf by Fariborz Soroush (4453000)

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)