Thematische Bibliographien / Water coupling / Zeitschriftenartikel
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Zeitschriftenartikel zum Thema „Water coupling“

Autor: Grafiati
Veröffentlicht am 26. Juni 2021
Zuletzt aktualisiert am 5. Februar 2022

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1

Li, Chun Qi, Li Jun Yan, Yang Wang und Jing Tang. „Simulation on the Effects of Misaligned Coupling on the Output Intensity Distribution in Water-Jet Guided Laser“. Advanced Materials Research 211-212 (Februar 2011): 400–405. http://dx.doi.org/10.4028/www.scientific.net/amr.211-212.400.

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Water-jet guided laser machining is a kind of material processing technology using water optical waveguide which is formed by coupling a high energy laser beam into variable-length water jet. In order to design the coupling unit and form the effective energy-jet, the research on the distribution of output intensity is beneficial to understand the structure of the coupling unit and improve the coupling efficiency of laser energy. This paper lists the different coupling misalignments in the coupling unit when laser couplings into water-jet. In this paper, the distribution of energy output intensity in water-jet guided laser is simulated with the ray trace theory under several different types of coupling misalignments with ZEMAX software, the results show that misaligned coupling provide various morphology of energy output intensity distribution: center peak morphology, ring peak morphology, and uniform peak morphology, which provides a method to optimize the energy output intensity distribution of water-jet guided laser.
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2

Guo, Qiang, Jianxu Zhou, Yongfa Li, Xiaolin Guan, Daohua Liu und Jian Zhang. „Fluid-Structure Interaction Response of a Water Conveyance System with a Surge Chamber during Water Hammer“. Water 12, Nr. 4 (03.04.2020): 1025. http://dx.doi.org/10.3390/w12041025.

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Fluid–structure interaction (FSI) is a frequent and unstable inherent phenomenon in water conveyance systems. Especially in a system with a surge chamber, valve closing and the subsequent water level oscillation in the surge chamber are the excitation source of the hydraulic transient process. Water-hammer-induced FSI has not been considered in preceding research, and the results without FSI justify further investigations. In this study, an FSI eight-equation model is presented to capture its influence. Both the elbow pipe and surge chamber are treated as boundary conditions, and solved using the finite volume method (FVM). After verifying the feasibility of using FVM to solve FSI, friction, Poisson, and junction couplings are discussed in detail to separately reveal the influence of a surge chamber, tow elbows, and a valve on FSI. Results indicated that the major mechanisms of coupling are junction coupling and Poisson coupling. The former occurs in the surge chamber and elbows. Meanwhile, a stronger pressure pulsation is produced at the valve, resulting in a more complex FSI response in the water conveyance system. Poisson coupling and junction coupling are the main factors contributing to a large amount of local transilience emerging on the dynamic pressure curves. Moreover, frictional coupling leads to the lower amplitudes of transilience. These results indicate that the transilience is induced by the water hammer–structure interaction and plays important roles in the orifice optimization in the surge chamber.
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3

Yang, L. J., C. Q. Li, J. Tang, Y. Wang und Y. B. Chen. „Analysis on the Coupling Error of Laser and Water-Jet in Water-Jet Guided Laser Micromachining“. Advanced Materials Research 188 (März 2011): 190–94. http://dx.doi.org/10.4028/www.scientific.net/amr.188.190.

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Water-jet guided laser micromachining (WJGLM) is the new development of laser machining. It couples the focal laser beam of particular wavelength (low absorptivity of water) with the high speed water-jet which works as the multimode fiber. This paper investigated the necessary condition of coupling of laser and water-jet, and gave the fundamental research on the coupling error of laser coupling into the water-jet. On base of the analysis, the coupling unit is design for the WJGLM, the experimental results show that good cutting quality of Si wafer can be acquired by WJGLM with the coupling unit.
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4

Steven, Alan. „Micelle-Mediated Chemistry in Water for the Synthesis of Drug Candidates“. Synthesis 51, Nr. 13 (21.05.2019): 2632–47. http://dx.doi.org/10.1055/s-0037-1610714.

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Micellar reaction conditions, in a predominantly aqueous medium, have been developed for transformations commonly used by synthetic chemists working in the pharmaceutical industry to discover and develop drug candidates. The reactions covered in this review are the Suzuki–Miyaura, Miyaura borylation, Sonogashira coupling, transition-metal-catalysed CAr–N coupling, SNAr, amidation, and nitro reduction. Pharmaceutically relevant examples of these applications will be used to show how micellar conditions can offer advantages in yield, operational ease, amount of waste generated, transition-metal catalyst loading, and safety over the use of organic solvents, irrespective of the setting in which they are used.1 Introduction2 Micelles as Solubilising Agents3 Micelles as Nanoreactors4 Designer Surfactants5 A Critical Evaluation of the Case for Chemistry in Micelles6 Scope of Review7 Suzuki–Miyaura Coupling8 Miyaura Borylation9 Sonogashira Coupling10 Transition-Metal-Catalysed CAr–N Couplings11 SNAr12 Amidation13 Nitro Reduction14 Micellar Sequences15 Summary and Outlook
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5

Meng, Yan, Yiran Hao, Sébastien Guenneau, Shubo Wang und Jensen Li. „Willis coupling in water waves“. New Journal of Physics 23, Nr. 7 (01.07.2021): 073004. http://dx.doi.org/10.1088/1367-2630/ac0b7d.

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6

Wang, Yang, Li Jun Yang, J. Tang, L. Li und Yan Bin Chen. „Laser and Water-Jet Fiber Coupling Technology for Water-Jet Guided Laser Micromachining“. Advanced Materials Research 69-70 (Mai 2009): 29–33. http://dx.doi.org/10.4028/www.scientific.net/amr.69-70.29.

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The processing effect using water-jet guided laser micromachining technology is determined by the accurate coupling of focused laser and high speed water-jet. In order to realize the effective coupling, based on the analysis and calculation, a coupling unit with special structures was designed. The maximum angle of incidence was researched, which determined whether the total reflection occurred when laser transported in the water-jet. By the aid of fluid dynamical simulation, the coupling unit with uniform distribution of inner-cavity fluid field was designed. The attenuation of laser energy in water-jet fiber was investigated. Using appropriate laser wavelength, pulse energy and filtered and de-ionized water, energy attenuation in fiber was reduced. Experimental results showed that applying this coupling technology, perfect water-jet guided laser micromachining can be achieved.
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7

Leseurre, Lucie, Jean-Pierre Genet und Veronique Michelet. „ChemInform Abstract: Coupling Reactions in Water“. ChemInform 42, Nr. 25 (26.05.2011): no. http://dx.doi.org/10.1002/chin.201125253.

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8

Pérez, F. F., R. T. Pollard, J. F. Read, V. Valencia, J. M. Cabanas und A. F. Ríos. „Climatological coupling of the thermohaline decadal changes in Central Water of the Eastern North Atlantic“. Scientia Marina 64, Nr. 3 (30.09.2000): 347–53. http://dx.doi.org/10.3989/scimar.2000.64n3347.

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9

Daniell, Katherine A., und Olivier Barreteau. „Water governance across competing scales: Coupling land and water management“. Journal of Hydrology 519 (November 2014): 2367–80. http://dx.doi.org/10.1016/j.jhydrol.2014.10.055.

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10

Wang, X., und L. B. Wang. „Dynamic analysis of a water–soil–pore water coupling system“. Computers & Structures 85, Nr. 11-14 (Juni 2007): 1020–31. http://dx.doi.org/10.1016/j.compstruc.2006.11.017.

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11

Shang, Qiquan, Man Wu, Jinge Yang, Ten Pan, Guang Zhang, Dan Wu und Huabei Jiang. „A comparative study on water and dry coupling in photoacoustic tomography of the finger joints“. Journal of Innovative Optical Health Sciences 13, Nr. 04 (17.04.2020): 2050008. http://dx.doi.org/10.1142/s179354582050008x.

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We present a systematical study on comparison between water and dry coupling in photoacoustic tomography of the human finger joints. Compared to the direct water immersion of the finger for water coupling, the dry coupling is realized through a transparent PDMS film-based water bag, which ensures water-free contact with the skin. The results obtained suggest that the dry coupling provides image quality comparable to that by water coupling while eliminating the wrinkling of the finger joint caused by the water immersion. In addition, the dry coupling offers more stable hemodynamic images than the water coupling as the water immersion of the finger joint causes reduction in blood vessel size.
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12

Caputo, Jean-Guy, Denys Dutykh und Bernard Gleyse. „Coupling Conditions for Water Waves at Forks“. Symmetry 11, Nr. 3 (24.03.2019): 434. http://dx.doi.org/10.3390/sym11030434.

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We considered the propagation of nonlinear shallow water waves in a narrow channel presenting a fork. We aimed at computing the coupling conditions for a 1D effective model, using 2D simulations and an analysis based on the conservation laws. For small amplitudes, this analysis justifies the well-known Stoker interface conditions, so that the coupling does not depend on the angle of the fork. We also find this in the numerical solution. Large amplitude solutions in a symmetric fork also tend to follow Stoker’s relations, due to the symmetry constraint. For non symmetric forks, 2D effects dominate so that it is necessary to understand the flow inside the fork. However, even then, conservation laws give some insight in the dynamics.
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13

Boese, Sven, Martin Jung, Nuno Carvalhais, Adriaan J. Teuling und Markus Reichstein. „Carbon–water flux coupling under progressive drought“. Biogeosciences 16, Nr. 13 (03.07.2019): 2557–72. http://dx.doi.org/10.5194/bg-16-2557-2019.

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Abstract. Water-use efficiency (WUE), defined as the ratio of carbon assimilation over evapotranspiration (ET), is a key metric to assess ecosystem functioning in response to environmental conditions. It remains unclear which factors control this ratio during periods of extended water limitation. Here, we used dry-down events occurring at eddy-covariance flux tower sites in the FLUXNET database as natural experiments to assess if and how decreasing soil-water availability modifies WUE at ecosystem scale. WUE models were evaluated by their performance to predict ET from both the gross primary productivity (GPP), which characterizes carbon assimilation at ecosystem scale, and environmental variables. We first compared two water-use efficiency models: the first was based on the concept of a constant underlying water-use efficiency, and the second augmented the first with a previously detected direct influence of radiation on transpiration. Both models predicting ET strictly from atmospheric covariates failed to reproduce observed ET dynamics for these periods, as they did not explicitly account for the effect of soil-water limitation. We demonstrate that an ET-attenuating soil-water-availability factor in junction with the additional radiation term was necessary to accurately predict ET flux magnitudes and dry-down lengths of these water-limited periods. In an analysis of the attenuation of ET for the 31 included FLUXNET sites, up to 50 % of the observed decline in ET was due to the soil-water-availability effect we identified in this study. We conclude by noting that the rates of ET decline differ significantly between sites with different vegetation and climate types and discuss the dependency of this rate on the variability of seasonal dryness.
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14

Cicco, Stefania R., Carmela Martinelli, Vita Pinto, Francesco Naso und Gianluca M. Farinola. „Oxidative cross-coupling of vinylsilanes in water“. Journal of Organometallic Chemistry 732 (Mai 2013): 15–20. http://dx.doi.org/10.1016/j.jorganchem.2013.01.021.

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15

Lautz, Jaclyn, Georgy Sankin und Pei Zhong. „Turbulent water coupling in shock wave lithotripsy“. Physics in Medicine and Biology 58, Nr. 3 (15.01.2013): 735–48. http://dx.doi.org/10.1088/0031-9155/58/3/735.

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16

Zhang, Rong, Fengyu Zhao, Masahiro Sato und Yutaka Ikushima. „Noncatalytic Heck coupling reaction using supercritical water“. Chemical Communications, Nr. 13 (2003): 1548. http://dx.doi.org/10.1039/b302683c.

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17

Zhou, Jian Guo. „Velocity-Depth Coupling in Shallow-Water Flows“. Journal of Hydraulic Engineering 121, Nr. 10 (Oktober 1995): 717–24. http://dx.doi.org/10.1061/(asce)0733-9429(1995)121:10(717).

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18

Liu, Ning, Chun Liu, Qiang Xu und Zilin Jin. „Thermoregulated Copper-Free Sonogashira Coupling in Water“. European Journal of Organic Chemistry 2011, Nr. 23 (07.06.2011): 4422–28. http://dx.doi.org/10.1002/ejoc.201100367.

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19

Szep, Szilvia, Sheldon Park, Eric T. Boder, Gregory D. Van Duyne und Jeffery G. Saven. „Structural coupling between FKBP12 and buried water“. Proteins: Structure, Function, and Bioinformatics 74, Nr. 3 (15.02.2009): 603–11. http://dx.doi.org/10.1002/prot.22176.

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20

Xu und Toshikazu Hirao. „Vanadium-Catalyzed Pinacol Coupling Reaction in Water“. Journal of Organic Chemistry 70, Nr. 21 (Oktober 2005): 8594–96. http://dx.doi.org/10.1021/jo051213f.

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21

Reardon, Preshious, Sean Metts, Chad Crittendon, Pat Daugherity und Edith J. Parsons. „Palladium-Catalyzed Coupling Reactions in Superheated Water“. Organometallics 14, Nr. 8 (August 1995): 3810–16. http://dx.doi.org/10.1021/om00008a031.

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22

Zhang, Han Cheng, und G. Doyle Daves. „Water facilitation of palladium-mediated coupling reactions“. Organometallics 12, Nr. 5 (Mai 1993): 1499–500. http://dx.doi.org/10.1021/om00029a005.

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23

CHEN, Ying, Guangcheng DING und Yongkang SHI. „C303 A NEW TECHNOLOGY COUPLING WITH HEAT PUMP WATER HEAT, DEHUMIDIFICATION AND REFRIGERATION(Heat Pump-1)“. Proceedings of the International Conference on Power Engineering (ICOPE) 2009.3 (2009): _3–151_—_3–156_. http://dx.doi.org/10.1299/jsmeicope.2009.3._3-151_.

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24

Alley, R. B. „Water-Pressure Coupling of Sliding and Bed Deformation: I. Water System“. Journal of Glaciology 35, Nr. 119 (1989): 108–18. http://dx.doi.org/10.3189/002214389793701527.

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AbstractAnalysis of the likely behavior of a water system developed between ice and an unconsolidated glacier bed suggests that, in the absence of channelized sources of melt water, the system will approximate a film of varying thickness. The effective pressure in such a film will be proportional to the basal shear stress but inversely proportional to the fraction of the bed occupied by the film. These hypotheses allow calculation of the sliding and bed-deformation velocities of a glacier from the water supply and basal shear stress, as discussed in the second and third papers in this series.
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25

Baker, G. J., P. F. Knowles, K. B. Pandeya und J. B. Rayner. „Electron nuclear double-resonance (ENDOR) spectroscopy of amine oxidase from pig plasma“. Biochemical Journal 237, Nr. 2 (15.07.1986): 609–12. http://dx.doi.org/10.1042/bj2370609.

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Electron nuclear double-resonance (‘ENDOR’) spectroscopic studies on pig plasma amine oxidase have been carried out at 15 K. Deuterium-exchange studies show the presence of two sets of exchangeable protons, probably from two water molecules; from the magnitude of their hyperfine couplings, one is assigned to be equatorially, and the other axially, co-ordinated. Only one 14N hyperfine coupling is observed, suggesting that the bonding of all amino acid (histidine) or organic cofactor ligands is similar. Upon addition of azide, a further hyperfine coupling to nitrogen is observed which is smaller than that observed for the native enzyme; the hyperfine couplings to the remaining nitrogens are slightly altered.
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26

Vanderveen, Jesse R., Mark A. Blackburn und Kristopher J. Ooms. „2H double- and zero-quantum filtered NMR spectroscopy for probing the environments of water in Nafion“. Canadian Journal of Chemistry 89, Nr. 9 (September 2011): 1095–104. http://dx.doi.org/10.1139/v11-045.

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Multiple quantum 2H NMR spectroscopy is used to study the structure and dynamics of D2O in Nafion membranes as a function of membrane hydration. By employing both double- and zero-quantum filtered experiments, residual quadrupolar coupling constants and T2 relaxation values are obtained. The residual couplings vary from 240 to 20 Hz and the T2 values range from 20 to 180 ms, with the high hydration values having smaller couplings and longer T2 values. Analysis of the data using a water-exchange model suggests that the changes in parameters arise from a change in the fraction of time water spends in the anisotropic environments and not from changes in the order parameters that characterize the anisotropic sites. It has been found that a two-site model is needed to accurately fit the spectra above a hydration level of 10 D2O per sulfonate, with the second site having a negligible residual quadrupolar coupling. The data supports a model with two different hydration layers at high hydration and can be understood in terms of the recently proposed parallel-channel model for Nafion hydration.
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27

Yang, Ti-Long, Shao-Fei Ni, Peng Qin und Li Dang. „A mechanism study on the hydrogen evolution reaction catalyzed by molybdenum disulfide complexes“. Chemical Communications 54, Nr. 9 (2018): 1113–16. http://dx.doi.org/10.1039/c7cc08632f.

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Water-mediated intermolecular H+/H coupling between two- or three-electron reduced sulfur hydride complexes with a hydrated proton is preferred to produce H2 rather than intramolecular couplings between sulfur hydride and metal hydride complexes.
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28

Dawson, Clint. „Analysis of Discontinuous Finite Element Methods for Ground Water/Surface Water Coupling“. SIAM Journal on Numerical Analysis 44, Nr. 4 (Januar 2006): 1375–404. http://dx.doi.org/10.1137/050639405.

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29

Chen, Dong, Dennis E. Rolston und Per Moldrup. „COUPLING DIAZINON VOLATILIZATION AND WATER EVAPORATION IN UNSATURATED SOILS: I. WATER TRANSPORT“. Soil Science 165, Nr. 9 (September 2000): 681–89. http://dx.doi.org/10.1097/00010694-200009000-00001.

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30

Capobianco, Amedeo, Alessandro Landi und Andrea Peluso. „Modeling DNA oxidation in water“. Physical Chemistry Chemical Physics 19, Nr. 21 (2017): 13571–78. http://dx.doi.org/10.1039/c7cp02029e.

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31

Ohtaka, Atsushi. „Transition-metal Nanoparticles Catalyzed Carbon-Carbon Coupling Reactions in Water“. Current Organic Chemistry 23, Nr. 6 (04.07.2019): 689–703. http://dx.doi.org/10.2174/1385272823666190419211714.

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The use of transition-metal nanoparticles in catalysis has attracted much interest, and their use in carbon-carbon coupling reactions such as Suzuki, Heck, Sonogashira, Stille, Hiyama, and Ullmann coupling reactions constitutes one of their most important applications. The transition-metal nanoparticles are considered as one of the green catalysts because they show high catalytic activity for several reactions in water. This review is devoted to the catalytic system developed in the past 10 years in transition-metal nanoparticles-catalyzed carbon-carbon coupling reactions such as Suzuki, Heck, Sonogashira, Stille, Hiyama, and Ullmann coupling reactions in water.
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32

Boyd, Glen R., Steven H. Reiber, Matthew S. McFadden und Gregory V. Korshin. „Effect of changing water quality on galvanic coupling“. Journal - American Water Works Association 104, Nr. 3 (März 2012): E136—E149. http://dx.doi.org/10.5942/jawwa.2012.104.0038.

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33

Assimos, Dean G. „Re: Turbulent Water Coupling in Shock Wave Lithotripsy“. Journal of Urology 190, Nr. 3 (September 2013): 900. http://dx.doi.org/10.1016/j.juro.2013.05.064.

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34

Halterman, Ronald L., Jessica P. Porterfield und Shekar Mekala. „Chromium-catalyzed pinacol coupling of benzaldehyde in water“. Tetrahedron Letters 50, Nr. 51 (Dezember 2009): 7172–74. http://dx.doi.org/10.1016/j.tetlet.2009.10.027.

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35

Couty, Philippe. „Laser coupling with a multimode water-jet waveguide“. Optical Engineering 44, Nr. 6 (01.06.2005): 068001. http://dx.doi.org/10.1117/1.1928280.

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36

Canavelli, Pierre, Saidul Islam und Matthew W. Powner. „Peptide ligation by chemoselective aminonitrile coupling in water“. Nature 571, Nr. 7766 (Juli 2019): 546–49. http://dx.doi.org/10.1038/s41586-019-1371-4.

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37

Itoh, N., W. C. Xu, S. Hara und K. Sakaki. „Electrochemical coupling of benzene hydrogenation and water electrolysis“. Catalysis Today 56, Nr. 1-3 (Februar 2000): 307–14. http://dx.doi.org/10.1016/s0920-5861(99)00288-6.

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38

Lautz, Jaclyn, Georgy Sankin und Pei Zhong. „Corrigendum: Turbulent water coupling in shock wave lithotripsy“. Physics in Medicine and Biology 58, Nr. 8 (03.04.2013): 2735. http://dx.doi.org/10.1088/0031-9155/58/8/2735.

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39

Wang, Chao, und Jian-Dong Yang. „Water Hammer Simulation Using Explicit–Implicit Coupling Methods“. Journal of Hydraulic Engineering 141, Nr. 4 (April 2015): 04014086. http://dx.doi.org/10.1061/(asce)hy.1943-7900.0000979.

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40

Shi, Xu, Kosei Ueno, Tomoya Oshikiri, Quan Sun, Keiji Sasaki und Hiroaki Misawa. „Enhanced water splitting under modal strong coupling conditions“. Nature Nanotechnology 13, Nr. 10 (30.07.2018): 953–58. http://dx.doi.org/10.1038/s41565-018-0208-x.

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41

Yousefi, Hossein, Takashi Nishino, Alireza Shakeri, Mehdi Faezipour, Ghanbar Ebrahimi und Masaru Kotera. „Water-repellentall-cellulose nanocomposite using silane coupling treatment“. Journal of Adhesion Science and Technology 27, Nr. 12 (Juni 2013): 1324–34. http://dx.doi.org/10.1080/01694243.2012.695954.

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42

Gallo, P., M. A. Ricci und M. Rovere. „Supercooled confined water and the mode coupling scenario“. Physica A: Statistical Mechanics and its Applications 304, Nr. 1-2 (Februar 2002): 53–58. http://dx.doi.org/10.1016/s0378-4371(01)00515-5.

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43

Sokolov, A. P., J. Hurst und D. Quitmann. „Dynamics of supercooled water: Mode-coupling theory approach“. Physical Review B 51, Nr. 18 (01.05.1995): 12865–68. http://dx.doi.org/10.1103/physrevb.51.12865.

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44

Kessy, Marion E. „Discussion: Velocity-Depth Coupling in Shallow-Water Flows“. Journal of Hydraulic Engineering 123, Nr. 7 (Juli 1997): 669. http://dx.doi.org/10.1061/(asce)0733-9429(1997)123:7(669).

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45

Giorgiutti, F., L. Laurent und F. Daviaud. „Coupling of rotating water jets by surface waves“. Physical Review E 58, Nr. 1 (01.07.1998): 512–21. http://dx.doi.org/10.1103/physreve.58.512.

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46

Paquette, Leo A. „ChemInform Abstract: Indium-Promoted Coupling Reactions in Water“. ChemInform 32, Nr. 5 (30.01.2001): no. http://dx.doi.org/10.1002/chin.200105279.

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47

Manabe, Kei, Kenji Nakada, Naohiro Aoyama und Shū Kobayashi. „Cross-Coupling Reactions of Allylic Alcohols in Water“. Advanced Synthesis & Catalysis 347, Nr. 11-13 (Oktober 2005): 1499–503. http://dx.doi.org/10.1002/adsc.200505135.

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48

Herty, Michael, und Mohammed Seaïd. „Assessment of coupling conditions in water way intersections“. International Journal for Numerical Methods in Fluids 71, Nr. 11 (20.07.2012): 1438–60. http://dx.doi.org/10.1002/fld.3719.

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M’nif, A., S. Bouguecha, B. Hamrouni und M. Dhahbi. „Coupling of membrane processes for brackish water desalination“. Desalination 203, Nr. 1-3 (Februar 2007): 331–36. http://dx.doi.org/10.1016/j.desal.2006.04.016.

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50

Bong, Dennis T., und M. Reza Ghadiri. „Chemoselective Pd(0)-Catalyzed Peptide Coupling in Water“. Organic Letters 3, Nr. 16 (August 2001): 2509–11. http://dx.doi.org/10.1021/ol016169e.

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