Dynamically self-assembled patterns formed by up to 40 micro-rafts

Slides:

Advertisements

Similar presentations

Simulation of surface EMG signals at different contraction intensities with the model used in Fig. 1. Simulation of surface EMG signals at different contraction.

Advertisements

Self-folding triangular devices at two scales.

Fig. 5 In vivo MIP imaging of lipid and protein in C. elegans.

Fig. 1 Dynamics of crowded solutions probed by NSE.

Fig. 2 Electronically conducting xylem wires.

Quasi-static and dynamic trajectories.

Fig. 2 The arrangements of metal core and ligands.

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

Fig. 2 Box plots of water use with lateral lengths.

Fig. 1 Demographic shifts in knowledge producers.

Spatial statistics of X-ray volumes reveal layering and spatially diverse distribution of cell bodies. Spatial statistics of X-ray volumes reveal layering.

Fig. 4 Complete separation of water and solute after stable and efficient solar evaporation. Complete separation of water and solute after stable and efficient.

Fig. 3 Observed and modeled basal tilt rates.

Fig. 3 Faculty placement distributions.

Fig. 3 ACID isosurfaces of the model complex 2′ separated into the π- and σ-contribution. ACID isosurfaces of the model complex 2′ separated into the π-

Fig. 2 CdS thin films with three different shapes.

Fig. 2 Solid-state NMR spectra of ceria in contact with water.

Distinct enhancer binding of CEBPA in WT GMPs versus p30 L-GMPs

Fig. 3 Rotation experiment, setup.

Fig. 5 The gate voltage dependence of IEE of the Rashba-split 2DEG between SrTiO3 and 3-UC LaAlO3. The gate voltage dependence of IEE of the Rashba-split.

Destabilization of the WAIS in the unperturbed reference simulation

Damage resilience of ACES architecture compared with a conventional row-column multiplexed array. Damage resilience of ACES architecture compared with.

Fig. 2 Four types of MJO propagation patterns along the equator.

Fig. 1 Fluctuation-induced dynamic response patterns.

Fig. 4 Vent forecasts. Vent forecasts. Top: Stationary stress forecast. (A) Thin red lines are forecasted magma trajectories, and red stairs indicate the.

Fig. 3 Alch-MC design and self-assembly of a previously unreported novel crystal structure with no known atomic equivalent. Alch-MC design and self-assembly.

Fig. 5 Recruitment of a downstream polarity complex triggered by the MT arrival. Recruitment of a downstream polarity complex triggered by the MT arrival.

Fig. 5 Molecular dynamics simulations of Rac1.

Fig. 3 ET dynamics on the control and treatment watersheds during the pretreatment and treatment periods. ET dynamics on the control and treatment watersheds.

Fig. 5 Wave speed analysis.

Fig. 4 Experimental outputs.

Fig. 4 Structural design of an F-TENG.

Fig. 5 Maps of Europe’s artificial sky brightness, in twofold increasing steps, as a ratio to the natural sky brightness (assumed to be 174 μcd/m2). Maps.

Fig. 4 Summary of TBC trends.

Fig. 2 Large-area and high-density assembly of AuNPs.

Humans display a reduced set of consistent behavioral phenotypes in dyadic games by Julia Poncela-Casasnovas, Mario Gutiérrez-Roig, Carlos Gracia-Lázaro,

Fig. 4 Visualization of complex loop motions by 1-μs MD trajectories.

by Jorge F. Mejias, John D. Murray, Henry Kennedy, and Xiao-Jing Wang

Fig. 4 Randomized benchmarking measurement.

Fig. 3 Polarized perovskite nanocomposites via 3D printing.

Fig. 3 CFD simulations. CFD simulations. (A to R) Details of water flow around Tribrachidium oriented at 0° to the current. Model with original height.

Fig. 3 Realization of the Su-Schrieffer-Heeger (SSH) model.

Fig. 2 Optimization of the sweat control and characterization of individual sensors. Optimization of the sweat control and characterization of individual.

by Chenhui Peng, Taras Turiv, Yubing Guo, Sergij V

Fig. 5 Changes in PSD-95 synaptic puncta in the mPFC 6 weeks after exposure to 5 or 30 cGy of 16O or 48Ti charged particles. Changes in PSD-95 synaptic.

Quasi-freestanding epitaxial silicene on Ag(111) by oxygen intercalation by Yi Du, Jincheng Zhuang, Jiaou Wang, Zhi Li, Hongsheng Liu, Jijun Zhao, Xun.

Fig. 1 Topology of places and city block complexity.

Fig. 3 Double-resonance solid-state NMR data of ceria nanoparticles.

Fig. 7 Global change in the collective mass for wild mammals, humans, cattle, and all livestock for the years 1900–2050. Global change in the collective.

Fig. 4 Scalable module illustration.

Fig. 1 Fractional coverage of the mapping method used in this study.

Fig. 4 Map of δ18OVSMOW in groundwaters of the British Isles (left) and Strontium (87Sr/86Sr) biosphere map of Great Britain (right). Map of δ18OVSMOW.

Fig. 2 Simulations of possible doping positions and band structures.

Fig. 2 XRD spectra and molecular structures of tetragonal and monoclinic crystal phase KDP samples. XRD spectra and molecular structures of tetragonal.

Multiplexed four- and eight-channel devices for rapid processing

Fig. 2 Number of years that would have been required for the observed vertebrate species extinctions in the last 114 years to occur under a background.

Fig. 5 Simulation of the mechanical properties of the 3DGraphene foam in a wide temperature range down to the cryogenic region. Simulation of the mechanical.

Fig. 1 Charge manipulation and readout in diamond.

Fig. 1 Droplet transport on transverse wave surface topographies.

Fig. 19 Comparisons between sky brightness NPS CCD observations and atlas predictions. Comparisons between sky brightness NPS CCD observations and atlas.

Fig. 2 Inferring the diffusion equation from a single Brownian motion.

Fig. 5 Frequency of appearances of immigrant vertebrate taxa or their oldest known descendants in opposing continents as observed in well-dated fossiliferous.

Fig. 3 Results of the proposed algorithm applied to a detail from the Adam panel. Results of the proposed algorithm applied to a detail from the Adam panel.

Fig. 3 TEM images of 80-nm-thin cuts of spongin carbonized at 1200°C.

Fig. 1 Prestige hierarchies in faculty hiring networks.

Fig. 2 The working principle and electrical output modulating of BD-TENG by changing the materials of friction layers. The working principle and electrical.

Comparison of STM data on point impurities with DFT calculations

Fig. 3 Photothermal property and disassembly behavior study of the self-assembled nanostructures. Photothermal property and disassembly behavior study.

Fig. 5 Schematics illustrating enhancement in April tornado activity due to SST. Schematics illustrating enhancement in April tornado activity due to SST.

Fig. 5 Spatial resolution of the optogenetic activation achieved with OLED microarrays. Spatial resolution of the optogenetic activation achieved with.

Presentation transcript:

Fig. 3 Dynamically self-assembled patterns formed by up to 40 micro-rafts. Dynamically self-assembled patterns formed by up to 40 micro-rafts. (A) Numbers of micro-rafts in each layer for up to 40 micro-rafts. The inset on the top left shows four distinct bands formed by the trajectories of 36 micro-rafts. The central band consists of the trajectory of only one micro-raft. (B) An example of experimentally observed polymorphism is the two polymorphs of 21 micro-rafts. The top row shows two micro-rafts in the innermost layer, whereas the bottom row shows only one micro-raft in the innermost layer. The number at the center of a raft is the raft number, and the numbering starts from the innermost layer and increases clockwise within one layer. (C) Experimental and simulated patterns for 36 to 40 micro-rafts. The number in italics at the bottom right of each raft indicates the number of its nearest neighbors. This analysis of nearest neighbors is based on Voronoi cell construction, and it shows that the micro-rafts in the inner layers contain 6 ± 1 neighbors. Wendong Wang et al. Sci Adv 2017;3:e1602522 Copyright © 2017, The Authors