Probability density of the cumulative number <i>C</i> of infections for different system sizes <i>N</i> at their critical vaccination doses with the random vaccination strategy as... حسب Yannick Feld (16520678)

DataSheet1_Molecular subtyping of esophageal squamous cell carcinoma by large-scale transcriptional profiling: Characterization, therapeutic targets, and prognostic value.PDF حسب Danke Wang (14071641)

Scatter-plot of node degree obtained in original vs. reconstructed LFR networks (with mixing parameter <i>m</i> = 0.05). حسب Lucas Guerreiro (17817345)

الموضوعات:

Simulation of the average densities/concentrations of the variables for model (2)–(21) with ENZ, Sip-T, anti-PD-1 (<i>A</i>₁) and anti-CTLA-4 (<i>A</i>₄). حسب Nourridine Siewe (5081834)

Exploring the Potential of Metal–Organic Frameworks for Cryogenic Helium-Based Gas Gap Heat Switches via High-Throughput Computational Screening حسب Lingxiao Qin (18181961)

"…Structure–performance analysis reveals that 1/<i>v</i>_sor consistently increases first and then decreases with pore limiting diameter, largest cavity diameter, available pore volume, accessible surface area, helium void fraction, and bulk density. …"

<i>SC</i> and <i>Dq</i> of urban agglomerations from 2016 to 2021. حسب Peijiong Feng (17020939)

Simulation of the average densities/concentrations of the variables for model (2)–(21) with/without ENZ (ADT) at <i>γ</i>_<i>E</i> = 10⁻⁷ g/cm³⋅d.... حسب Nourridine Siewe (5081834)

Example of categorisation of scoring periods as either increasing or decreasing tail injury. حسب Richard B. D’Eath (4666777)

Pairwise correlations in APP/PS1 mice are decreased in dCA1, but increased in vCA1. حسب Udaysankar Chockanathan (18510288)

A parametric model with 71 attributes permits a large ‘face space’. حسب Sawitree Wisetchat (18706518)

Parameter values distribution of (k) <i>k</i> Average degree of the network and (l) Ψ Emission limiting constant generated using ABC. حسب Athira Satheesh Kumar (20570553)

Extraction efficiency of a larger volume of specimen, 400 μl specimen input Cp and 200 μl specimen input Cp. حسب Ana Cabrera (266933)

Nanofibrous Actuator with an Alignment Gradient for Millisecond-Responsive, Multidirectional, Multimodal, and Multidimensional Large Deformation حسب Juanrong Qin (9437568)

"…Herein, we employ a structural bionic strategy to design and fabricate a novel water/moisture responsive nanofibrous actuator with an alignment degree gradient. Owing to its different contraction gradient amplitudes along the thickness direction and the unique physical property of the nanofibrous material, the prepared actuator exhibits excellent shape deformation performance, including superfast response (less than 150 ms), controllable deformation directions, multiple actuation models, multiple dimensional deformation (0D–3D, 1D–3D, 2D–3D, and 3D–3D), large bending curvature (25.3 cm^–1), and a repeatability rate of at least 1000. …"

Nanofibrous Actuator with an Alignment Gradient for Millisecond-Responsive, Multidirectional, Multimodal, and Multidimensional Large Deformation حسب Juanrong Qin (9437568)

"…Herein, we employ a structural bionic strategy to design and fabricate a novel water/moisture responsive nanofibrous actuator with an alignment degree gradient. Owing to its different contraction gradient amplitudes along the thickness direction and the unique physical property of the nanofibrous material, the prepared actuator exhibits excellent shape deformation performance, including superfast response (less than 150 ms), controllable deformation directions, multiple actuation models, multiple dimensional deformation (0D–3D, 1D–3D, 2D–3D, and 3D–3D), large bending curvature (25.3 cm^–1), and a repeatability rate of at least 1000. …"

Nanofibrous Actuator with an Alignment Gradient for Millisecond-Responsive, Multidirectional, Multimodal, and Multidimensional Large Deformation حسب Juanrong Qin (9437568)

"…Herein, we employ a structural bionic strategy to design and fabricate a novel water/moisture responsive nanofibrous actuator with an alignment degree gradient. Owing to its different contraction gradient amplitudes along the thickness direction and the unique physical property of the nanofibrous material, the prepared actuator exhibits excellent shape deformation performance, including superfast response (less than 150 ms), controllable deformation directions, multiple actuation models, multiple dimensional deformation (0D–3D, 1D–3D, 2D–3D, and 3D–3D), large bending curvature (25.3 cm^–1), and a repeatability rate of at least 1000. …"

Nanofibrous Actuator with an Alignment Gradient for Millisecond-Responsive, Multidirectional, Multimodal, and Multidimensional Large Deformation حسب Juanrong Qin (9437568)

"…Herein, we employ a structural bionic strategy to design and fabricate a novel water/moisture responsive nanofibrous actuator with an alignment degree gradient. Owing to its different contraction gradient amplitudes along the thickness direction and the unique physical property of the nanofibrous material, the prepared actuator exhibits excellent shape deformation performance, including superfast response (less than 150 ms), controllable deformation directions, multiple actuation models, multiple dimensional deformation (0D–3D, 1D–3D, 2D–3D, and 3D–3D), large bending curvature (25.3 cm^–1), and a repeatability rate of at least 1000. …"

Nanofibrous Actuator with an Alignment Gradient for Millisecond-Responsive, Multidirectional, Multimodal, and Multidimensional Large Deformation حسب Juanrong Qin (9437568)

"…Herein, we employ a structural bionic strategy to design and fabricate a novel water/moisture responsive nanofibrous actuator with an alignment degree gradient. Owing to its different contraction gradient amplitudes along the thickness direction and the unique physical property of the nanofibrous material, the prepared actuator exhibits excellent shape deformation performance, including superfast response (less than 150 ms), controllable deformation directions, multiple actuation models, multiple dimensional deformation (0D–3D, 1D–3D, 2D–3D, and 3D–3D), large bending curvature (25.3 cm^–1), and a repeatability rate of at least 1000. …"

Nanofibrous Actuator with an Alignment Gradient for Millisecond-Responsive, Multidirectional, Multimodal, and Multidimensional Large Deformation حسب Juanrong Qin (9437568)

"…Herein, we employ a structural bionic strategy to design and fabricate a novel water/moisture responsive nanofibrous actuator with an alignment degree gradient. Owing to its different contraction gradient amplitudes along the thickness direction and the unique physical property of the nanofibrous material, the prepared actuator exhibits excellent shape deformation performance, including superfast response (less than 150 ms), controllable deformation directions, multiple actuation models, multiple dimensional deformation (0D–3D, 1D–3D, 2D–3D, and 3D–3D), large bending curvature (25.3 cm^–1), and a repeatability rate of at least 1000. …"

Nanofibrous Actuator with an Alignment Gradient for Millisecond-Responsive, Multidirectional, Multimodal, and Multidimensional Large Deformation حسب Juanrong Qin (9437568)

"…Herein, we employ a structural bionic strategy to design and fabricate a novel water/moisture responsive nanofibrous actuator with an alignment degree gradient. Owing to its different contraction gradient amplitudes along the thickness direction and the unique physical property of the nanofibrous material, the prepared actuator exhibits excellent shape deformation performance, including superfast response (less than 150 ms), controllable deformation directions, multiple actuation models, multiple dimensional deformation (0D–3D, 1D–3D, 2D–3D, and 3D–3D), large bending curvature (25.3 cm^–1), and a repeatability rate of at least 1000. …"

Nanofibrous Actuator with an Alignment Gradient for Millisecond-Responsive, Multidirectional, Multimodal, and Multidimensional Large Deformation حسب Juanrong Qin (9437568)

"…Herein, we employ a structural bionic strategy to design and fabricate a novel water/moisture responsive nanofibrous actuator with an alignment degree gradient. Owing to its different contraction gradient amplitudes along the thickness direction and the unique physical property of the nanofibrous material, the prepared actuator exhibits excellent shape deformation performance, including superfast response (less than 150 ms), controllable deformation directions, multiple actuation models, multiple dimensional deformation (0D–3D, 1D–3D, 2D–3D, and 3D–3D), large bending curvature (25.3 cm^–1), and a repeatability rate of at least 1000. …"