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

A noxious temperature decrease without a prior increase produces a subtly larger decrease in pain intensity. by Benedict J. Alter (9745466)

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

TZs weighted degree distribution. by Chen Xie (114508)

Subjects:

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)

“…To address this problem, we developed "multisite extent of deprotonation originating from context" (MEDOC) to determine the degree of protonation of a protein based on the local sequence context of each ionizable residue. …”

As in S17 Fig but for sources that are arranged at 45 degrees to the flow (see e.g. Fig 13C). by Sina Tootoonian (12024799)

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. …”

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. …”

Large-Scale Spinning Approach to Engineering Knittable Hydrogel Fiber for Soft Robots by Xiangyu Duan (9535372)

“…This work not only demonstrates an example for the large-scale production of previous infeasible hydrogel fibers, but also provides a solution for the rational design and fabrication of hydrogel woven intelligent devices.…”

Large-Scale Spinning Approach to Engineering Knittable Hydrogel Fiber for Soft Robots by Xiangyu Duan (9535372)

“…This work not only demonstrates an example for the large-scale production of previous infeasible hydrogel fibers, but also provides a solution for the rational design and fabrication of hydrogel woven intelligent devices.…”

Large-Scale Spinning Approach to Engineering Knittable Hydrogel Fiber for Soft Robots by Xiangyu Duan (9535372)

“…This work not only demonstrates an example for the large-scale production of previous infeasible hydrogel fibers, but also provides a solution for the rational design and fabrication of hydrogel woven intelligent devices.…”

Degree of unsaturation and abundance of EPA and DHA in PCs and PEs. by Simone Heyen (17712095)

Subjects:

Classification of raters by using their self-declared answers regarding participation in animal experiments/care taking as well as on animal-handling experience with different spec... by Johanne C. Krueger (17327796)