Fig. 1 A hollow polymer fiber filled with solid gallium creates a tough metamaterial core-shell fiber. A hollow polymer fiber filled with solid gallium.

Slides:

Advertisements

Similar presentations

Fig. 5 Correlation of RNA expression and protein abundance.

Advertisements

Fig. 4 3D reconfiguration of liquid metals for electronics.

Fig. 5 MicroLED array with 3D liquid metal interconnects.

Fig. 2 Reconfiguration of liquid metals into 3D structures.

Fig. 1 High-resolution printing of liquid metals.

Fig. 3 The electrical contact of direct-printed and reconfigured liquid metals. The electrical contact of direct-printed and reconfigured liquid metals.

Fig. 2 Global production, use, and fate of polymer resins, synthetic fibers, and additives (1950 to 2015; in million metric tons). Global production, use,

Fig. 2 CL-DMD modeling of FKBP.

Fig. 2 CFD results. CFD results. Results of CFD simulations in horizontal (left column) and vertical (right column) cross-sections. All models oriented.

Fig. 3 Oil, gas, and FP water variations with time.

Fig. 5 Thermal conductivity of n-type ZrCoBi-based half-Heuslers.

Fig. 1 Map of water stress and shale plays.

Fig. 1 Examples of experimental stimuli and behavioral performance.

Fig. 1 NP-free Ch-CNC droplets.

Fig. 4 Morphogenesis in the Ch-CNC host droplets and NP assemblies.

Fig. 4 Resynthesized complex boronic acid derivatives based on different scaffolds on a millimole scale and corresponding yields. Resynthesized complex.

Fig. 6 Comparison of properties of water models.

Fig. 3 Scan rate effects on the layer edge current.

Fig. 1 Product lifetime distributions for the eight industrial use sectors plotted as log-normal probability distribution functions (PDF). Product lifetime.

Fig. 3 Affective responses by exchange condition (PR and RE), level of redistribution (0 = random, one-card, and two-card exchange), and outcome as winner.

Fig. 1 Proportions of normative beliefs by exchange condition, level of redistribution (0 = random, one-card, and two-card exchange), and outcome as winner.

Fig. 1 Parameterization and temporal distribution of carbon isotopic events in the database. Parameterization and temporal distribution of carbon isotopic.

Fig. 1 Distribution of total and fake news shares.

Fig. 5 Wearable closed-loop HMI.

Fig. 3 Characteristics of UV and temperature sensors.

Fig. 2 2D QWs of different propagation lengths.

Electronic structure of the oligomer (n = 8) at the UB3LYP/6-31G

Fig. 3 Magnetic scrolls. Magnetic scrolls. (A) Actuation of an IROGRAN scroll by moving the magnet toward the scroll and pulling the scroll open. The scroll.

Fig. 6 WPS imaging of different chemical components in living cells.

The changes in the water intensity of hydraulic fracturing with time

Fig. 1 Histograms of the number of first messages received by men and women in each of our four cities. Histograms of the number of first messages received.

Fig. 5 Schematic phase diagrams of Ising spin systems and Mott transition systems. Schematic phase diagrams of Ising spin systems and Mott transition systems.

Characteristics of ultrathin single-crystalline semiconductor films

Fig. 4 OER performance of ACoO3 (A = Ca, Sr) in alkaline solutions with different pH. OER performance of ACoO3 (A = Ca, Sr) in alkaline solutions with.

Fig. 1 Average contribution (million metric tons) of seafood-producing sectors, 2009–2014. Average contribution (million metric tons) of seafood-producing.

Fig. 4 The mechanical performances of thermally stable click-ionogels.

Fig. 1 Cross-sectional images of He-implanted V/Cu/V samples.

Fig. 4 Evolution of fraction of sickled RBCs under hypoxia.

Fig. 1 Structure and absorption spectra of the P

Fig. 3 Characterization of the current-induced effective fields.

Fig. 3 Production of protein and Fe(II) at the end of growth correlated with increasing concentrations of ferrihydrite in the media that contained 0.2.

Fig. 2 Folding motions of the TCO with strain-softening behavior.

Fig. 2 Schematic drawings of Göbekli Tepe skulls.

Fig. 2 NH3, NOx, SO2, and NMVOC emission changes triggered by the JJJ clean air policy. NH3, NOx, SO2, and NMVOC emission changes triggered by the JJJ.

Fig. 1 Size fractions of MPPs in different fertilizers.

Fig. 2 Sampling. Sampling. (A) Extant stratigraphic section. Zenithal (B) and frontal (C) views of the flowstone capping the excavated deposit. The rectangle.

Fig. 4 Relationships between light and economic parameters.

Fig. 5 Comparison of the liquid products generated from photocatalytic CO2 reduction reactions (CO2RR) and CO reduction reactions (CORR) on two catalysts.

Fig. 1 Location of the Jirzankal Cemetery.

Fig. 4 CO2 emission changes triggered by the JJJ clean air policy.

Multiplexed four- and eight-channel devices for rapid processing

Fig. 4 The relationship between the total mean absolute momentum disturbance 〈∣p∣〉zB (in units of ℏ/D) and fringe visibility V. The relationship between.

Fig. 3 Comparisons of NDVI trends over the globally vegetated areas from 1982 to Comparisons of NDVI trends over the globally vegetated areas from.

Fig. 5 Vegetation profiles.

Fig. 1 Schematic depiction of a paradigm for rapid and guided discovery of materials through iterative combination of ML with HiTp experimentation. Schematic.

Fig. 4 Mapping of abundance of the most dominant bacterial and archaeal phyla across France. Mapping of abundance of the most dominant bacterial and archaeal.

Fig. 4 Spatial mapping of the distribution and intensity of industrial fishing catch. Spatial mapping of the distribution and intensity of industrial fishing.

Fig. 4 Single-particle contact angle measurements.

Fig. 4 Changes in amount of atmospheric aerosol and of solar energy at Earth’s surface after nuclear exchange. Changes in amount of atmospheric aerosol.

Fig. 2 Supraballs and films from binary SPs.

Fig. 3 Performance of the generative model G, with and without stack-augmented memory. Performance of the generative model G, with and without stack-augmented.

Fig. 1 Schematic structure of a fluorescently labeled eGLP1-conjugated MALAT1 ASO and internalization of fluorescent eGLP1 and eGLP1-MALAT1-ASO. Schematic.

Fig. 4 Behavior of resistance peak near density nm = 5.

Fig. 2 Comparison between the different reflective metasurface proposals when θi = 0° and θr = 70°. Comparison between the different reflective metasurface.

Fig. 1 Overview of amber clast with synchrotron x-ray μCT image of articulated snake skeleton (DIP-S-0907). Overview of amber clast with synchrotron x-ray.

Fig. 1 Blood nicotine levels after escalation of nicotine intake.

Fig. 3 Rubbery strain, pressure, and temperature sensors.

Fig. 5 Flickering RSCF display at night.

Fig. 3 Temperature-dependent heat capacity of YbTM2Zn20.

Fig. 2 Time series of secularization versus GDP per capita, from four illustrative countries, over the 20th century. Time series of secularization versus.

Presentation transcript:

Fig. 1 A hollow polymer fiber filled with solid gallium creates a tough metamaterial core-shell fiber. A hollow polymer fiber filled with solid gallium creates a tough metamaterial core-shell fiber. (A) Schematic of the metamaterial (Ga-SEBS) fiber being strained. By inducing multiple breaks in the gallium core, the fiber dissipates large amounts of tensile energy at a near-constant rate. (B) Force versus strain for a solid gallium core (black), a hollow SEBS fiber (red), and a Ga-SEBS fiber (blue). (C) Images of a Ga-SEBS fiber from 0 to 350% strain in intervals of 50% strain accompanied by corresponding stress position graphs. The ordinate depicts engineering stress (in MPa; normalized by the initial fiber cross-sectional area), and the abscissa denotes position (in mm/mm; normalized by the initial fiber length) where zero is the leftmost part of the fiber. For scale, the initial fiber length is 27 mm. (D) A close-up image of a fiber at 800% strain. Scale bar, 1 mm. Photo credit: Christopher B. Cooper, North Carolina State University. Christopher B. Cooper et al. Sci Adv 2019;5:eaat4600 Copyright © 2019 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).