ROC curves for hub genes. by Jiyong Zhang (2498740)

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Intersection genes obtained from the PPI network and PPI network analysis of intersection genes. colored circles represent genes. by Jiyong Zhang (2498740)

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Expression profile heatmaps of key genes in gene sets. by Jiyong Zhang (2498740)

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Construction of the WGCNA Co-expression Network. by Jiyong Zhang (2498740)

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Differential Gene Expression Associated with Non-Alcoholic Fatty Liver Disease. by Jiyong Zhang (2498740)

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Interaction analysis of hub genes. by Jiyong Zhang (2498740)

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Amplitude for A/L = 0.29. by Muhammad Hammad Bucha (21736111)

“…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”

Top view of the experimental setup. by Muhammad Hammad Bucha (21736111)

“…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”

Amplitude for A/L = 0.338. by Muhammad Hammad Bucha (21736111)

“…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”

Parameters of energy harvesting. by Muhammad Hammad Bucha (21736111)

“…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”

Graph for Max Amplitude/Length at G_y = 0. by Muhammad Hammad Bucha (21736111)

“…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”

Amplitude for A/L = 0.02. by Muhammad Hammad Bucha (21736111)

“…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”

Graph for maximum Frequency at G_y = 0. by Muhammad Hammad Bucha (21736111)

“…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”

Graph for maximum Power at G_y = 0. by Muhammad Hammad Bucha (21736111)

“…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”

Amplitude for A/L = 0.03. by Muhammad Hammad Bucha (21736111)

“…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”

Summary of experimentation results. by Muhammad Hammad Bucha (21736111)

“…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”

Piezoelectric eel. by Muhammad Hammad Bucha (21736111)

“…The flapping frequency, amplitude, and optimal power of the rough cylinders were analyzed and compared with that of smooth cylinders experimentally, and the optimum point () in terms of power was attained. Increased surface roughness significantly reduced power output, flapping frequency, and amplitude. …”

Molecular Insights into the Crystallization of 4’-Hydroxyacetophenone from Water: Solute Aggregation, Liquid–Liquid Phase Separation, and Polymorph Selection by Carlos E. S. Bernardes (7183481)

“…As cooling progresses, they become more compact, a process accompanied by a reduction in water content, which is more significant as the solution concentration increases. …”

Molecular Insights into the Crystallization of 4’-Hydroxyacetophenone from Water: Solute Aggregation, Liquid–Liquid Phase Separation, and Polymorph Selection by Carlos E. S. Bernardes (7183481)

“…As cooling progresses, they become more compact, a process accompanied by a reduction in water content, which is more significant as the solution concentration increases. …”

Molecular Insights into the Crystallization of 4’-Hydroxyacetophenone from Water: Solute Aggregation, Liquid–Liquid Phase Separation, and Polymorph Selection by Carlos E. S. Bernardes (7183481)

“…As cooling progresses, they become more compact, a process accompanied by a reduction in water content, which is more significant as the solution concentration increases. …”