During electrical stimulation the decrease in compound action potential (CAP), but not of ATP, is larger in <i>Plp</i>^null/y mice. by Andrea Trevisiol (9647910)

Figure 6. Analysis of peptidergic network degree highlights hubs and a large rich club by Lidia Ripoll-Sánchez (17031075)

Biases in larger populations. by Sander W. Keemink (21253563)

“…Threshold parameter <i>c</i> = − 0 . 1 for the rectified cosine tuning with 4 neurons, and width <i>w</i> was 1 for von Mises tuning. …”

The carotid canal area is larger on the unaffected side than on the affected side in patients with unilateral moyamoya disease, but the difference decreases according to the contra... by Yuki Oichi (11840776)

Scatterplot of IRSF to C/C values according to the degree of burning and the type of bone. by Paula Becerra Fuello (22177478)

The distribution of <i>Giardia duodenalis</i> assemblages in domestic and wild populations of nonhuman mammalian species with a larger number of isolates. by Kareem Hatam-Nahavandi (7384790)

TZs weighted degree distribution. by Chen Xie (114508)

MEDOC: A Fast, Scalable, and Mathematically Exact Algorithm for the Site-Specific Prediction of the Protonation Degree in Large Disordered Proteins by Martin J. Fossat (3714079)

“…Our algorithm applies the structure of the <i>q</i>-canonical ensemble, combined with novel strategies to rapidly obtain the minimal set of parameters, thereby circumventing the combinatorial explosion of the number of charge microstates even for proteins containing a large number of ionizable amino acids. …”

Cell-to-cell mtDNA variability for larger mtDNA populations. by Robert C. Glastad (10692277)

Degree of isotopic niche overlap between maturity stages of <i>Sphyrna lewini</i> in the Galapagos Marine Reserve. by Florencia Cerutti-Pereyra (158763)

Validation of self-reported height and weight in a large, nationwide cohort of U.S. adults - Fig 1 by James M. Hodge (8703657)

Mean change in PROM scores and odds of greater degree of improvement for each MC composition category. by Margaret-Ann Tait (16942927)

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... by Yannick Feld (16520678)

Nanofibrous Actuator with an Alignment Gradient for Millisecond-Responsive, Multidirectional, Multimodal, and Multidimensional Large Deformation by 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 by 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 by 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 by 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 by 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 by 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 by 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. …”