Flow chart of the study participants. by Oscar F. C. van den Bosch (22184246)

T1w images (top row) and segmented PVS overlaid on T1w images (bottom row) at TP of 0M, 3M, 12M, and FollowUp for a typical patient. by Ruitian Song (11045127)

Estimates of the differencing parameter, d, in Eq (1). by Luis Alberiko Gil-Alana (14659817)

Estimates of the differencing parameter, d, in Eq (1). by Luis Alberiko Gil-Alana (14659817)

Estimated coefficients based on the selected model in Table 4. by Luis Alberiko Gil-Alana (14659817)

Estimated coefficients based on the selected model in Table 3. by Luis Alberiko Gil-Alana (14659817)

Dynamic characteristics of (A) FIB and (B) PCT between the survival and deceased groups of SFTS patients with HLH. by Bo Zhang (6559)

Different serum biochemical profile of male Japanese quail exposed to acetochlor @ 0, 20, 30 and 40 mg/kg BW reared in groups A, B, C, and D respectively via crop tube for 45 days. by Naveed Arshad (19712985)

Different serum biochemical profile of male Japanese quail exposed to acetochlor @ 0, 20, 30 and 40 mg/kg BW reared in groups A, B, C, and D respectively via crop tube for 45 days. by Naveed Arshad (19712985)

Feed intake and body weight of male Japanese quail exposed to acetochlor @ 0, 20, 30 and 40 mg/kg BW reared in groups A, B, C, and D respectively via crop tube for 45 days. by Naveed Arshad (19712985)

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

“…Furthermore, the initiation limit of the weak water-flushed zone is clarified: under the model conditions (with a permeability ratio of 10), the weak water-flushed zone in the low-permeability layers can be initiated when the permeability ratio decreases to 2.4 after plugging adjustments or the viscosity of the injected displacing medium reaches 10 mPa·s. …”

Length distribution and condition factors <i>K</i> of <i>E. erythropterus</i> (A) before and (B) after the NRE opening. by Jeong-Soo Gim (18058588)

Distribution of zooplankton abundance by depth (A) before and (B) after and phytoplankton abundance by depth (C) before and (D) after the opening of the NRE. by Jeong-Soo Gim (18058588)

Graphical representation on the impact of native orientin and NF-orientin on the expression of VEGF-A and FGF2 mRNA isolated from the CAM. by Yashwanth Elumalai (21743452)

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

“…To address the aforementioned challenges, we developed a bionic wedge-shaped track on the copper (Cu) substrate inspired by the cone-shaped thorn of cactus for liquid spontaneous transport. …”

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

“…To address the aforementioned challenges, we developed a bionic wedge-shaped track on the copper (Cu) substrate inspired by the cone-shaped thorn of cactus for liquid spontaneous transport. …”

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

“…To address the aforementioned challenges, we developed a bionic wedge-shaped track on the copper (Cu) substrate inspired by the cone-shaped thorn of cactus for liquid spontaneous transport. …”

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

“…To address the aforementioned challenges, we developed a bionic wedge-shaped track on the copper (Cu) substrate inspired by the cone-shaped thorn of cactus for liquid spontaneous transport. …”

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

“…To address the aforementioned challenges, we developed a bionic wedge-shaped track on the copper (Cu) substrate inspired by the cone-shaped thorn of cactus for liquid spontaneous transport. …”

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

“…To address the aforementioned challenges, we developed a bionic wedge-shaped track on the copper (Cu) substrate inspired by the cone-shaped thorn of cactus for liquid spontaneous transport. …”