Prediction of individual spatial patterns of nodal module overlap from structural brain features in children. by Tianyuan Lei (19683861)

Spatial patterns of developmental changes in nodal entropy using different statistical models. by Tianyuan Lei (19683861)

Spatial patterns of nodal module overlap (i.e., nodal entropy) for different network analysis strategies and their relationships with the main results. by Tianyuan Lei (19683861)

Spatial patterns of developmental changes in nodal entropy for different thresholding strategies. by Tianyuan Lei (19683861)

Cognitive function decoding of brain regions. by Tianyuan Lei (19683861)

Baseline characteristics of the participants. by Junichi Kushioka (12236447)

“…Our accessible, non-invasive model serves as a tool that can accurately diagnose the labor-intensive LS tests using only visual assessments, streamlining LS detection and expediting treatment initiation. This significantly improves patient outcomes and marks a crucial advancement in digital health, addressing key challenges in management and care of LS.…”

Internal validation by cross-validation. by Junichi Kushioka (12236447)

“…Our accessible, non-invasive model serves as a tool that can accurately diagnose the labor-intensive LS tests using only visual assessments, streamlining LS detection and expediting treatment initiation. This significantly improves patient outcomes and marks a crucial advancement in digital health, addressing key challenges in management and care of LS.…”

Schematic diagram of numerical simulation model. by Mengyun Li (7490870)

“…<div><p>After prolonged waterflooding development, the main integrated oil reservoirs in the X Oilfield have largely entered the late stage of waterflooding, with an average water cut reaching approximately 98%. However, a significant amount of remaining oil still accumulates in the weak water-flushed zones of low-permeability layers, which presents substantial development potential. …”

A Wettability Gradient Synergistic Bionic Wedge-Shaped Track for Ultrafast and Long-Distance Spontaneous Transport of Droplets by Xinghai Zhong (21450285)

“…Under the synergistic effect of the Laplace force and wettability gradient force, the average speed of the whole movement process of the water droplet can reach 225.2 mm/s, which was much higher than those reported in previous studies, the transportation distance exceeded 25 mm, and the track need not be wetted in advance. In addition, the effect of the apex angle of the wettability gradient wedge-shaped track (WGWT) on the droplet self-transport performance was systematically investigated; the results indicated that the transport distance and speed of the water droplet decreased with the increase of the apex angle of the WGWT. …”

A Wettability Gradient Synergistic Bionic Wedge-Shaped Track for Ultrafast and Long-Distance Spontaneous Transport of Droplets by Xinghai Zhong (21450285)

“…Under the synergistic effect of the Laplace force and wettability gradient force, the average speed of the whole movement process of the water droplet can reach 225.2 mm/s, which was much higher than those reported in previous studies, the transportation distance exceeded 25 mm, and the track need not be wetted in advance. In addition, the effect of the apex angle of the wettability gradient wedge-shaped track (WGWT) on the droplet self-transport performance was systematically investigated; the results indicated that the transport distance and speed of the water droplet decreased with the increase of the apex angle of the WGWT. …”

A Wettability Gradient Synergistic Bionic Wedge-Shaped Track for Ultrafast and Long-Distance Spontaneous Transport of Droplets by Xinghai Zhong (21450285)

“…Under the synergistic effect of the Laplace force and wettability gradient force, the average speed of the whole movement process of the water droplet can reach 225.2 mm/s, which was much higher than those reported in previous studies, the transportation distance exceeded 25 mm, and the track need not be wetted in advance. In addition, the effect of the apex angle of the wettability gradient wedge-shaped track (WGWT) on the droplet self-transport performance was systematically investigated; the results indicated that the transport distance and speed of the water droplet decreased with the increase of the apex angle of the WGWT. …”

A Wettability Gradient Synergistic Bionic Wedge-Shaped Track for Ultrafast and Long-Distance Spontaneous Transport of Droplets by Xinghai Zhong (21450285)

“…Under the synergistic effect of the Laplace force and wettability gradient force, the average speed of the whole movement process of the water droplet can reach 225.2 mm/s, which was much higher than those reported in previous studies, the transportation distance exceeded 25 mm, and the track need not be wetted in advance. In addition, the effect of the apex angle of the wettability gradient wedge-shaped track (WGWT) on the droplet self-transport performance was systematically investigated; the results indicated that the transport distance and speed of the water droplet decreased with the increase of the apex angle of the WGWT. …”

A Wettability Gradient Synergistic Bionic Wedge-Shaped Track for Ultrafast and Long-Distance Spontaneous Transport of Droplets by Xinghai Zhong (21450285)

“…Under the synergistic effect of the Laplace force and wettability gradient force, the average speed of the whole movement process of the water droplet can reach 225.2 mm/s, which was much higher than those reported in previous studies, the transportation distance exceeded 25 mm, and the track need not be wetted in advance. In addition, the effect of the apex angle of the wettability gradient wedge-shaped track (WGWT) on the droplet self-transport performance was systematically investigated; the results indicated that the transport distance and speed of the water droplet decreased with the increase of the apex angle of the WGWT. …”

A Wettability Gradient Synergistic Bionic Wedge-Shaped Track for Ultrafast and Long-Distance Spontaneous Transport of Droplets by Xinghai Zhong (21450285)

“…Under the synergistic effect of the Laplace force and wettability gradient force, the average speed of the whole movement process of the water droplet can reach 225.2 mm/s, which was much higher than those reported in previous studies, the transportation distance exceeded 25 mm, and the track need not be wetted in advance. In addition, the effect of the apex angle of the wettability gradient wedge-shaped track (WGWT) on the droplet self-transport performance was systematically investigated; the results indicated that the transport distance and speed of the water droplet decreased with the increase of the apex angle of the WGWT. …”

Alpha diversity index table. by Xiaona Lyu (20871872)

“…Results demonstrated that irrigation regimes and fertilization patterns significantly modulated bacterial richness and diversity, as quantified by amplicon sequence variants (ASVs). …”

ASV species taxonomic information sheet. by Xiaona Lyu (20871872)

“…Results demonstrated that irrigation regimes and fertilization patterns significantly modulated bacterial richness and diversity, as quantified by amplicon sequence variants (ASVs). …”

Effective sequence statistics table. by Xiaona Lyu (20871872)

“…Results demonstrated that irrigation regimes and fertilization patterns significantly modulated bacterial richness and diversity, as quantified by amplicon sequence variants (ASVs). …”

Heat map of the Pearson correlation coefficients between progress test scores across test administrations from 2017 to 2024. by Franco Romaní-Romaní (21989788)

Comparing A) ROS and B) GSH levels in COCs versus DOs recovered from PMSG-stimulated NMRI mice cultured in absence or presence of 0.5 µM PA during IVM. Data are presented as means... by Shahrzad Ronasi (20933556)

Comparing the developmental competence of COCs versus DOs recovered from PMSG-stimulated NMRI mice cultured in presence of various concentrations of MGO (0, 20, 40, 75 and 150 µM)... by Shahrzad Ronasi (20933556)