Fig. 3 Measured thermoelectric characteristics.

Slides:

Advertisements

Similar presentations

Fig. 2 Nonlinearities in a cavity-embedded perovskite single crystal.

Advertisements

Fig. 2 Transport properties of a BP transistor at low temperature.

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. 4 Direct observation of Peltier, Joule, current crowding, and magneto-Peltier effects. Direct observation of Peltier, Joule, current crowding, and.

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

Fig. 6 Thermoelectric figure of merit of ZrCoBi-based half-Heuslers and measured heat-to-electricity conversion efficiency. Thermoelectric figure of merit.

Fig. 1 Examples of experimental stimuli and behavioral performance.

Fig. 3 Saturation velocity of BP FETs.

Fig. 1 NP-free Ch-CNC droplets.

Fig. 3 Electron PSD in various regions.

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

Fig. 2 Some examples of weekly forecasts (the number of the forecasts are reported on Table 1). Some examples of weekly forecasts (the number of the forecasts.

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 TESC spectra with increasing coupling strength and plexciton energy diagram with QD detuning. TESC spectra with increasing coupling strength and.

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

Fig. 3 Rotation experiment, setup.

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

Fig. 1 Reference-fixing experiment, setup.

Fig. 2 Full-frame images recording the violation of a Bell inequality in four images. Full-frame images recording the violation of a Bell inequality in.

Fig. 3 Gate voltage dependence of the areal iDMI and PMA.

Fig. 3 Characteristics of UV and temperature sensors.

Fig. 3 Photon number statistics resulting from Fock state |l, S − l〉 interference. Photon number statistics resulting from Fock state |l, S − l〉 interference.

Fig. 2 2D QWs of different propagation lengths.

Fig. 2 Experimental setups for spin caloritronic measurements.

Fig. 3 Magnetic and transport properties of ACoO3 (A = Ca, Sr).

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

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

Fig. 4 DFT ωB97x/def2-TZVPP atomic charges on the sulfur atom of substituted thioaldehyde and AIMNet prediction with a different number of iterative passes.

Fig. 3 Correlation between magnetoresistance and emergence of superconductivity. Correlation between magnetoresistance and emergence of superconductivity.

Fig. 3 Load dependence of friction force and corresponding COF.

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. 3 GIWAXS pattern of perovskite films with varied ligands.

Fig. 2 Magnetic properties of FGT/Pt bilayer.

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

Fig. 2 Results of the learning and testing phases.

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. 4 SPICE simulation of stochasticity.

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 Schematic view and characterizations of FGT/Pt bilayer.

Fig. 2 Asymmetric MR of LMO within the ac plane.

Fig. 2 Top 10 countries, ecoregions, conservation hotspots, and KBAs with the largest area of restoration hotspots. Top 10 countries, ecoregions, conservation.

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.

Schematic of the proposed brain-controlled assistive hearing device

Fig. 1 The calculation of STF moment acceleration, using the 2010 Maule, Chile M8.8 earthquake as an example. The calculation of STF moment acceleration,

Fig. 4 SOT-driven perpendicular magnetization switching in the FGT/Pt bilayer device. SOT-driven perpendicular magnetization switching in the FGT/Pt bilayer.

Fig. 1 Location of the Jirzankal Cemetery.

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

Fig. 1 Structural and electrical properties of Bi2Se3/BaFe12O19.

Fig. 3 Maximal energy intake.

Fig. 2 Mean field results. Mean field results. (A) Solutions P(x) to Eq. 4 for a range of T and wc = (B) Modulus ∣pk∣ of order parameters versus.

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. 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. 2 Latitudinal changes in the sea-ice drivers.

Fig. 5 Density plots showing the relationship between growth responses to extreme events and site-level mean precipitation from all sites (N = 1314). Density.

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

Fig. 1 Structure and basic properties of EuTiO3 (ETO) films.

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

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

Fig. 3 Calculated electronic structure of ZrCoBi.

Fig. 2 Longitudinal (local) resistance Rxx and nonlocal resistance Rnl with different terminal configurations on the six-terminal device measured without.

Fig. 3 Spatial distribution of the shoot density (high densities are represented in dark green and low ones in bright yellow) in a simulation of a P. oceanica.

Presentation transcript:

Fig. 3 Measured thermoelectric characteristics. Measured thermoelectric characteristics. (A and B) Electrical resistance (A) and Seebeck coefficient (B) of a CoNi/Cu NW network showing similar magnetic field dependence corresponding to MR = 30.2% and MTP = −29.3% at RT. The magnetic field was applied in the plane of the NW network film. (C) MR ratio and −MTP as a function of temperature. (D) MPF as a function of temperature obtained using the MR and MTP data in (C) and MPF = (1 − MTP)2/(1 − MR) − 1. (E) Measured Seebeck coefficients at zero applied field SAP (orange triangles) and at saturating magnetic field SP (violet triangles), along with the corresponding calculated S↑ (blue circles) and S↓ (red squares) from Eqs. 1 and 2 (see text). The dashed green line represents the Seebeck coefficient for a vanishing MR effect. Data in the whole figure have been acquired using the same interconnected network made of NWs with a diameter of 80 nm and a packing density of 3%. The error bars in (C) to (E) reflect the uncertainty of the voltage and temperature measurements as described in section S6. Tristan da Câmara Santa Clara Gomes et al. Sci Adv 2019;5:eaav2782 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).