Position of viscous fingering at 0.5s. by Yu-Ting Wu (2057263)

Comparison of MAP@0.5 results from experiments. by Junyan Wang (4738518)

“…Experimental results demonstrate that SCI-YOLO11 achieves a 3.2% improvement over baseline models in terms of MAP@0.5 metric; precision and recall rates increase by 2.6% and 3.7%, respectively. …”

HE stainings of P0.5 mice first molars. by Claudia Colasante (101665)

Boxplot comparing Ct values for HD in flies and clothes. by Philippe Ndzomo (17706039)

Cumulative distribution function of the WEED distribution for <i>β</i> = 0.5, 1, 1.5, and 2 in circular representation. by Sakhr A. S. Alotaibi (22216601)

Reliability function of the WEED distribution for <i>β</i> = 0.2, 0.5, 0.8, and 1.2 in circular representation. by Sakhr A. S. Alotaibi (22216601)

Hazard function of the WEED distribution for <i>β</i> = 0.2, 0.5, 0.8, and 1.2 in circular representation. by Sakhr A. S. Alotaibi (22216601)

S1 Data. Bibliometric analysis. S2 Data. Estrogen level analysis. S3 Data. MicroCT quantification. S4 Data. Markers of bone metabolism. by Yan She (8639796)

Probability density function of the WEED distribution for parameter values <i>β</i> = 0.2, 0.5, 1.5, and 4 in circular representation. by Sakhr A. S. Alotaibi (22216601)

mAP0.5 Curves of various models. by Yaojun Zhang (389482)

Mann Whitney U test applied to differences in rates of decision switching (instances of yes, no and reconsider expressed as a proportion of the total reponses) of students and radi... by Clare Rainey (11677747)

Skin marks is the S1 Fig title. by Mercedes Soto-González (20422078)

Charge-Transfer-Driven Electrical Conductivity in Single Crystals of Assembled Triphenylamine Bis-urea Macrocycles by Fahidat A. Gbadamosi (22123930)

“…This is attributed to efficient CT observed in spectroscopic analyses and is consistent with the computed small HOMO–LUMO gap (2.92 eV) in a model of the host–guest system. <b>1</b>(MN)_0.39 and <b>1</b>(BTD)_0.5 demonstrated moderate conductivities explained by the interplay of electronic coupling, reorganization energy, and energy gap. …”

Charge-Transfer-Driven Electrical Conductivity in Single Crystals of Assembled Triphenylamine Bis-urea Macrocycles by Fahidat A. Gbadamosi (22123930)

“…This is attributed to efficient CT observed in spectroscopic analyses and is consistent with the computed small HOMO–LUMO gap (2.92 eV) in a model of the host–guest system. <b>1</b>(MN)_0.39 and <b>1</b>(BTD)_0.5 demonstrated moderate conductivities explained by the interplay of electronic coupling, reorganization energy, and energy gap. …”

Charge-Transfer-Driven Electrical Conductivity in Single Crystals of Assembled Triphenylamine Bis-urea Macrocycles by Fahidat A. Gbadamosi (22123930)

“…This is attributed to efficient CT observed in spectroscopic analyses and is consistent with the computed small HOMO–LUMO gap (2.92 eV) in a model of the host–guest system. <b>1</b>(MN)_0.39 and <b>1</b>(BTD)_0.5 demonstrated moderate conductivities explained by the interplay of electronic coupling, reorganization energy, and energy gap. …”

Charge-Transfer-Driven Electrical Conductivity in Single Crystals of Assembled Triphenylamine Bis-urea Macrocycles by Fahidat A. Gbadamosi (22123930)

“…This is attributed to efficient CT observed in spectroscopic analyses and is consistent with the computed small HOMO–LUMO gap (2.92 eV) in a model of the host–guest system. <b>1</b>(MN)_0.39 and <b>1</b>(BTD)_0.5 demonstrated moderate conductivities explained by the interplay of electronic coupling, reorganization energy, and energy gap. …”

Charge-Transfer-Driven Electrical Conductivity in Single Crystals of Assembled Triphenylamine Bis-urea Macrocycles by Fahidat A. Gbadamosi (22123930)

“…This is attributed to efficient CT observed in spectroscopic analyses and is consistent with the computed small HOMO–LUMO gap (2.92 eV) in a model of the host–guest system. <b>1</b>(MN)_0.39 and <b>1</b>(BTD)_0.5 demonstrated moderate conductivities explained by the interplay of electronic coupling, reorganization energy, and energy gap. …”

Charge-Transfer-Driven Electrical Conductivity in Single Crystals of Assembled Triphenylamine Bis-urea Macrocycles by Fahidat A. Gbadamosi (22123930)

“…This is attributed to efficient CT observed in spectroscopic analyses and is consistent with the computed small HOMO–LUMO gap (2.92 eV) in a model of the host–guest system. <b>1</b>(MN)_0.39 and <b>1</b>(BTD)_0.5 demonstrated moderate conductivities explained by the interplay of electronic coupling, reorganization energy, and energy gap. …”

ELISA analysis revealed a significant decrease in SP (A & B) and CGRP (C & D) protein levels in the corneas and tear fluid of mice treated with 0.5% bupivacaine (BUP) every alternate day for 15 days (administered via subconjunctival injection (SCI) alone or in combination with topical (TOP) application) compared to PBS-treated controls. by Ananya Datta (19932144)

Variation of unconfined compressive strength under different (injection rates/ grouting rounds/ cementation concentrations): (a) Speed of 0.5 mL/min; (b) Speed of 3 mL/min;Speed of... by Xiaoyan Ding (291429)