Diabetic wounds show increased amounts of vessel leakage and decreased pericyte coverage. by Uzoagu A. Okonkwo (8754933)

Performance of selected antimalarials against field isolates during the study period. by Winnie Okore (14139712)

Subjects:

Fig 5 - by Thiago Bezerra Wanderley e Lima (14232350)

Functional metabolism pathways present at ≥ 0.5% mean relative abundance in Control calves (n = 15) and High-Se treatment calves (n = 15) after weaning (baseline; week 0), at the e... by Jean A. Hall (289030)

EGF is decreased in individual donor milk, but not pooled donor milk. by Christian Tamar (21100605)

Methyl Gallate (MG) treatment decreases hepatocellular carcinoma (HCC) cell survival. by Chien-Yu Huang (802982)

DataSheet1_Solamargine Inhibits the Development of Hypopharyngeal Squamous Cell Carcinoma by Decreasing LncRNA HOXA11-As Expression.PDF by Ying Meng (327793)

A General in Situ Deposition Strategy for Synthesis of Janus Composite Fabrics with Co(CO₃)_0.5OH·0.11H₂O Nanoneedles for Oil–Water Separation by Luyang Hu (8689470)

“…The obtained composite fabric consists of a hydrophilic Co­(CO₃)_0.5OH·0.11H₂O nanoneedle/cotton fiber side and a hydrophobic cotton fiber side, which endows it with a unidirectional water transportation capability and exhibits an effective separation for both light and heavy oil–water mixtures under gravity. …”

A General in Situ Deposition Strategy for Synthesis of Janus Composite Fabrics with Co(CO₃)_0.5OH·0.11H₂O Nanoneedles for Oil–Water Separation by Luyang Hu (8689470)

“…The obtained composite fabric consists of a hydrophilic Co­(CO₃)_0.5OH·0.11H₂O nanoneedle/cotton fiber side and a hydrophobic cotton fiber side, which endows it with a unidirectional water transportation capability and exhibits an effective separation for both light and heavy oil–water mixtures under gravity. …”

A General in Situ Deposition Strategy for Synthesis of Janus Composite Fabrics with Co(CO₃)_0.5OH·0.11H₂O Nanoneedles for Oil–Water Separation by Luyang Hu (8689470)

“…The obtained composite fabric consists of a hydrophilic Co­(CO₃)_0.5OH·0.11H₂O nanoneedle/cotton fiber side and a hydrophobic cotton fiber side, which endows it with a unidirectional water transportation capability and exhibits an effective separation for both light and heavy oil–water mixtures under gravity. …”

A General in Situ Deposition Strategy for Synthesis of Janus Composite Fabrics with Co(CO₃)_0.5OH·0.11H₂O Nanoneedles for Oil–Water Separation by Luyang Hu (8689470)

“…The obtained composite fabric consists of a hydrophilic Co­(CO₃)_0.5OH·0.11H₂O nanoneedle/cotton fiber side and a hydrophobic cotton fiber side, which endows it with a unidirectional water transportation capability and exhibits an effective separation for both light and heavy oil–water mixtures under gravity. …”

A General in Situ Deposition Strategy for Synthesis of Janus Composite Fabrics with Co(CO₃)_0.5OH·0.11H₂O Nanoneedles for Oil–Water Separation by Luyang Hu (8689470)

“…The obtained composite fabric consists of a hydrophilic Co­(CO₃)_0.5OH·0.11H₂O nanoneedle/cotton fiber side and a hydrophobic cotton fiber side, which endows it with a unidirectional water transportation capability and exhibits an effective separation for both light and heavy oil–water mixtures under gravity. …”

A General in Situ Deposition Strategy for Synthesis of Janus Composite Fabrics with Co(CO₃)_0.5OH·0.11H₂O Nanoneedles for Oil–Water Separation by Luyang Hu (8689470)

“…The obtained composite fabric consists of a hydrophilic Co­(CO₃)_0.5OH·0.11H₂O nanoneedle/cotton fiber side and a hydrophobic cotton fiber side, which endows it with a unidirectional water transportation capability and exhibits an effective separation for both light and heavy oil–water mixtures under gravity. …”

A General in Situ Deposition Strategy for Synthesis of Janus Composite Fabrics with Co(CO₃)_0.5OH·0.11H₂O Nanoneedles for Oil–Water Separation by Luyang Hu (8689470)

“…The obtained composite fabric consists of a hydrophilic Co­(CO₃)_0.5OH·0.11H₂O nanoneedle/cotton fiber side and a hydrophobic cotton fiber side, which endows it with a unidirectional water transportation capability and exhibits an effective separation for both light and heavy oil–water mixtures under gravity. …”

A General in Situ Deposition Strategy for Synthesis of Janus Composite Fabrics with Co(CO₃)_0.5OH·0.11H₂O Nanoneedles for Oil–Water Separation by Luyang Hu (8689470)

“…The obtained composite fabric consists of a hydrophilic Co­(CO₃)_0.5OH·0.11H₂O nanoneedle/cotton fiber side and a hydrophobic cotton fiber side, which endows it with a unidirectional water transportation capability and exhibits an effective separation for both light and heavy oil–water mixtures under gravity. …”

Data from: Spillage and food dust do not decrease efficacy of long-lasting insecticide-incorporated netting against stored product insects by Sabita Ranabhat (17484660)

Increased endodiastolic volume and decreased ejection fraction in GJB4-deficient zebrafish. by Ryuji Okamoto (614374)

Summary of trend results based on Mann-Kendall test and Sen’s slope estimator for the 34 weather stations (arranged according to administrative division, in bold) for the wet season (May to October), (<i>p</i> < 0.10 = *, <i>p</i> < 0.05 = **, <i>p</i> < 0.01 = ***,—sign indicates decreasing trend). by Mohammed Mainuddin (8723352)

“…<p>Summary of trend results based on Mann-Kendall test and Sen’s slope estimator for the 34 weather stations (arranged according to administrative division, in bold) for the wet season (May to October), (<i>p</i> < 0.10 = *, <i>p</i> < 0.05 = **, <i>p</i> < 0.01 = ***,—sign indicates decreasing trend).…”

Antibodies used for flow cytometry experiments. by Joseph Rabin (7399436)

Subjects:

Subject flow diagram. by Joseph Rabin (7399436)

Subjects: