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Performance Flexibility

Duan, X. 2007. Assembled semiconductor nanowire thin-films for high-performance flexible macroelectronics. MRS Bull. 32 134-141. [Pg.30]

In an ideal sense, the structure of the design could be based directly on a model of the world in which it works (to an appropriate extent). Performance, flexibility, and reuse constraints sometimes dictate against naive continuity, and elements from architectural design down may need to differ from a real-world model. The question is how to balance the goals of seamlessness, maintainability, reuse, and tuned performance. [Pg.300]

Wang, D.-W., et ah, Fabrication ofgraphene/polyaniline composite paper via in situ anodic electropolymerization for high-performance flexible electrode. ACS Nano, 2009. 3(7) p. 1745-1752. [Pg.168]

Graphene functionalized with polyaniline can be used as a high-performance flexible electrode. The gravimetric and volumetric capacitances of the hybrid reach 233 F g1 and 135 F cm 3 respectively, more than those of graphene paper (147 Fg-1 and 64 F cm 3) [90],... [Pg.183]

It is interesting to contrast these films with the other films being considered for flexible electronics especially for the higher performance flexible display market. The main candidates are shown in Fig. 7.2 which lists the substrates on the basis of increasing glass transition temperature (Tg) [5, 6],... [Pg.165]

Durig, J., et al., High Performance Flexible Epoxy System for Civil Engineering, Paper presented at the SPI-Epoxy Resin Formulators Meeting, San Francisco, February 20-22, 1991. [Pg.136]

Performance Flexibility. Figure IV illustrates the effect of the 0H/NC0 ratio of 180° peel strength and rolling ball tack for both the Hycar 2103-Prepolymer C and Hycar 2106-Prepolymer C adhesive systems. Peel strength values of 493 N/m (45 oz./in.) or lower are possible for the Hycar 2103 system simply by altering the 0H/NC0 ratio. Likewise for the Hycar 2106 system, peel strengths of 657 N/m (60 oz./in.) or lower are possible. [Pg.101]

Even though modern fabricating machines with all its ingenious microprocessor control technology is in principle suited to perform flexible tasks, it nevertheless takes a whole series of peripheral auxiliary equipment to guarantee the necessary degree of flexibility (Chapter 18). Examples of this action includes ... [Pg.140]

The company claims world leadership in rigid thin-walled plastic and paper packaging and moulded fibre packaging. It is also a market leader in high-performance flexible packaging. [Pg.119]

A significant portion of the asphalt can be replaced by elemental sulfur to yield conventional high-performance flexible pavements. [Pg.140]

These kind of polyether polyols containing polymeric fillers are called polymer polyols and are produced on a large industrial scale, because they are one of the most important group of polyols used for high performance flexible polyurethane (PU) foams and PU elastomers [8-12]. [Pg.185]

CM Internal Coordiantes Mechanics performs flexible Ugand-protein docking using MC... [Pg.285]

Conducting polymers are promising basic backbones to construct flexible electrodes for LIBs because of their high flexibility, conformability, and versatility. Furthermore, the other active materials can be incorporated into the conducting polymers to form high-performance flexible electrodes. For example, a novel three-dimensional nanoarchitecture composed of PPy-Si core-shell nanofibers was achieved by the deposition of Si onto the electropolymerized PPy nanofibers. This core-shell structure indicated a high cyclic stability after repeated lithium insertion and extraction (Du et al., 2012). [Pg.336]

Chen, Z., To, J.W.F., Wang, C., Lu, Z.D., Liu, N., Chortos, A., Pan, L.J., Wei, E, Cui, Y., Bao, Z.N., 2014c. A Three-dimensionally interconnected carbon nano tube-conducting polymer hydrogel network for high-performance flexible battery electrodes. Adv. Energy Mater. 4,1400207. [Pg.350]

Y, Aisijiang, M.,Xie, Q., Cui,Y, Liu, Z., Peng, H., 2015. Roll-to-roU encapsulation of metal nanowires between graphene and plastic substrate for high-performance flexible transparent electrodes. Nano Lett. 15, 4206 213. [Pg.350]

Kang, J.W., Jeong, W.L, Kim, J.J., Kim, H.K., Kim, D.G., Lee, G.H., 2007. High-performance flexible organic light-emitting diodes using amorphous indium zinc oxide anode. Electrochem. Solid State Lett. 10, J75-J78. [Pg.351]

Uses Styrene-acrylic for high-performance flexible exterior coatings Features Nonflamm. [Pg.856]

Uses Functional polyol for polyurethanes, high-performance flexible coatings, adhesives, and cast elastomers Trade Names Lexorez 3500-140G... [Pg.1299]

Pllollte AC Pliolite AC-L styrene-acrylic, high-gloss enamels Carboset CR760 NeoCryl A-639 styrene-acrylic, high-performance flexible exterior coatings Texictyl 13-966... [Pg.1615]

Wang, X. R, B. Liu, Q. R Wang et al. 2013. Three-dimensional hierarchical GeSe2 nanostructures for high performance flexible all-solid-state supercapacitors. Advanced Materials 25 1479-1486. [Pg.241]

Liu, S. Y, J. Xie, H. B. Li et al. 2014. Nitrogen-doped reduced graphene oxide for high-performance flexible all-solid-state micro-supercapacitors. Journal of Materials Chemistry A 2 18125-18131. [Pg.241]

Peng, L., X. Peng, B. Liu, C. Wu, Y. Xie, and G. Yu. 2013. Ultrathin two-dimensional Mn02/graphene hybrid nanostructures for high-performance, flexible planar supercapacitors. Nano Letters 13 2151-2157. [Pg.242]

Yang, W. L., Z. Gao, J. Ma, X. M. Zhang, J. Wang, and J. Y. Liu. 2014. Hierarchical NiCo204 NiO core-shell hetero-structured nanowire arrays on carbon cloth for a high-performance flexible all-solid-state electrochemical capacitor. Journal of Materials Chemistry A 2 1448-1457. [Pg.245]

Zhao, J., J. Chen, S. Xu et al. 2013. CoMn-layered double hydroxide nanowalls supported on carbon fibers for high-performance flexible energy storage devices. Journal of Materials Chemistry A 1 8836-8843. [Pg.245]

Kim, D., J. Yun, G. Lee, and J. S. Ha. 2014. Fabrication of high performance flexible micro-supercapacitor arrays with hybrid electrodes of MWNT/V2O5 nanowires integrated with a Sn02 nanowire UV sensor. Nanoscale 6 12034-12041. [Pg.245]

Wang, Z. L., Z. L. Zhu, J. H. Qiu, and S. H. Yang. 2014. High performance flexible solid-state asymmetric supercapacitors from MnOfZnO core-shell nanorods// specially reduced graphene oxide. Journal of Materials Chemistry C 2 1331-1336. [Pg.246]

Gao, Y. R, J. H. Zhao, Z. Run, G. Q. Zhang, and H. Pang. 2014. Microporous Niii(HP03)g(0H)6 nanocrystals for high-performance flexible asymmetric all solid-state supercapacitors. Dalton Transactions 43 17000-17005. [Pg.246]

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