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Artículos de revistas sobre el tema "Ag/YSZ"

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Publicado: 8 de junio de 2024

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1

Huang, Liang-Wei, Ren-Kae Shiue, Chien-Kuo Liu, Yung-Neng Cheng, Ruey-Yi Lee y Leu-Wen Tsay. "Vacuum Brazing of Metallized YSZ and Crofer Alloy Using 72Ag-28Cu Filler Foil". Materials 15, n.º 3 (26 de enero de 2022): 939. http://dx.doi.org/10.3390/ma15030939.

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The study focused on dissimilar brazing of metallized YSZ (Yttria-Stabilized Zirconia) and Crofer alloy using BAg-8 (72Ag-28Cu, wt%) filler foil. The YSZ substrate was metallized by sequentially sputtering Ti (0.5/1 μm), Cu (1/3 μm), and Ag (1.5/5 μm) layers, and the Crofer substrate was coated with Ag layers with a thickness of 1.5 and 5 μm, respectively. The BAg-8 filler demonstrated excellent wettability on both metallized YSZ and Crofer substrates. The brazed joint primarily consisted of Ag-Cu eutectic. The metallized Ti layer dissolved into the braze melt, and the Ti preferentially reacted with YSZ and Fe from the Crofer substrate. The globular Fe2Ti intermetallic compound was observed on the YSZ side of the joint. The interfacial reaction of Ti was increased when the thickness of the metallized Ti layer was increased from 0.5 to 1 μm. Both brazed joints were crack free, and no pressure drop was detected after testing at room temperature for 24 h. In the YSZ/Ti(0.5μ)/Cu(1μ)/Ag(1.5μ)/BAg-8(50μ)/Ag(1.5μ)/Crofer joint tested at 600 °C, the pressure of helium decreased from 2.01 to 1.91 psig. In contrast, the helium pressure of the YSZ/Ti(1μ)/Cu(3μ)/Ag(5μ)/BAg-8(50μ)/Ag(5μ)/Crofer joint slightly decreased from 2.02 to 1.98 psig during the cooling cycle of the test. The greater interfacial reaction between the metallized YSZ and BAg-8 filler due to the thicker metallized Ti layer on the YSZ substrate was responsible for the improved gas-tight performance of the joint.
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2

Xu, Xing Yan, Chang Rong Xia, Shou Guo Huang y Guang Yao Meng. "Intermediate-Temperature Solid Oxide Fuel Cells with Y0.25Bi0.75O1.5-Ag Cathodes". Materials Science Forum 475-479 (enero de 2005): 1157–60. http://dx.doi.org/10.4028/www.scientific.net/msf.475-479.1157.

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Composites consisting of silver and yttria-stabilized bismuth oxide (YSB) were fabricated and investigated as cathodes for intermediate-temperature solid oxide fuel cells (SOFCs) with thin electrolyte films of yttria-stabilized zirconia (YSZ). The films were deposited using spin coating with YSZ suspension. Comparison of YSB-Ag and conventional La0.8Sr0.2MnO3 (LSM) based cathodes showed that the YSB-Ag composite has better electrochemical performance; Interfacial polarization resistance of YSB-Ag cathode is 0.13 Ωcm2 at 750oC. Power density of the single cell with YSB-Ag cathode was about 535 mW/cm2 at 750oC, while that with LSM-Sm0.2Ce0.8O1.9 cathode was only 329 mW/cm2.
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3

Truong, Thai Giang, Benjamin Rotonnelli, Mathilde Rieu, Jean-Paul Viricelle, Ioanna Kalaitzidou, Daniel Marinha, Laurence Burel, Angel Caravaca, Philippe Vernoux y Helena Kaper. "Catalytic and Electrochemical Properties of Ag Infiltrated Perovskite Coatings for Propene Deep Oxidation". Catalysts 10, n.º 7 (1 de julio de 2020): 729. http://dx.doi.org/10.3390/catal10070729.

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This study reports the catalytic properties of Ag nanoparticles dispersed on mixed ionic and electronic conducting layers of LSCF (La0.6Sr0.4Co0.2Fe0.8O3) for propene combustion. A commercial and a synthesized LSCF powder were deposited by screen-printing or spin-coating on dense yttria-stabilized zirconia (YSZ) substrates, an oxygen ion conductor. Equal loadings (50 µg) of Ag nanoparticles were dispersed via drop-casting on the LSCF layers. Electrochemical and catalytic properties have been investigated up to 300 °C with and without Ag in a propene/oxygen feed. The Ag nanoparticles do not influence the electrochemical reduction of oxygen, suggesting that the rate-determining step is the charge transfer at the triple phase boundaries YSZ/LSCF/gas. The anodic electrochemical performances correlate well with the catalytic activity for propene oxidation. This suggests that the diffusion of promoting oxygen ions from YSZ via LSCF grains can take place toward Ag nanoparticles and promote their catalytic activity. The best specific catalytic activity, achieved for a LSCF catalytic layer prepared by screen-printing from the commercial powder, is 800 times higher than that of a pure Ag screen-printed film.
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4

Si, Xiaoqing, Xiaoyang Wang, Chun Li, Tong Lin, Junlei Qi y Jian Cao. "Joining 3YSZ Electrolyte to AISI 441 Interconnect Using the Ag Particle Interlayer: Enhanced Mechanical and Aging Properties". Crystals 11, n.º 12 (16 de diciembre de 2021): 1573. http://dx.doi.org/10.3390/cryst11121573.

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Reactive air brazing has been widely used in fabricating solid oxide fuel/electrolysis cell (SOFC/SOEC) stacks. However, the conventional Ag–CuO braze can lead to (I) over oxidation at the steel interconnect interface caused by its adverse reactions with the CuO and (II) many voids caused by the hydrogen-induced decomposition of CuO. The present work demonstrates that the Ag particle interlayer can be used to join yttria-stabilized zirconia (YSZ) electrolytes to AISI 441 interconnect in air instead of Ag–CuO braze. Reliable joining between YSZ and AISI 441 can be realized at 920 °C. A dense and thin oxide layer (~2 μm) is formed at the AISI 441 interface. Additionally, an interatomic joining at the YSZ/Ag interface was observed by TEM. Obtained joints displayed a shear strength of ~86.1 MPa, 161% higher than that of the joints brazed by Ag–CuO braze (~33 MPa). After aging in reducing and oxidizing atmospheres (800 °C/300 h), joints remained tight and dense, indicating a better aging performance. This technique eliminates the CuO-induced issues, which may extend lifetimes for SOFC/SOEC stacks and other ceramic/metal joining applications.
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5

Kenjo, T. y H. Takiyama. "Oxygen permeation in Ag/YSZ air cathodes". Electrochimica Acta 39, n.º 18 (diciembre de 1994): 2685–92. http://dx.doi.org/10.1016/0013-4686(94)00307-6.

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6

Saito, Y., Y. Imamura y A. Kitahara. "Optical properties of YSZ implanted with Ag ions". Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 206 (mayo de 2003): 272–76. http://dx.doi.org/10.1016/s0168-583x(03)00743-2.

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7

Kaneko, Hiroyuki, Hitoshi Taimatsu, Yosuke Miyoshi, Kazunori Kawanaka y Taisuke Kusano. "YSZ/Ag potentiometric sensor for reducing gas detection". Sensors and Actuators B: Chemical 13, n.º 1-3 (mayo de 1993): 151–54. http://dx.doi.org/10.1016/0925-4005(93)85348-e.

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8

Usami, Toru, Noboru Akao, Nobuyoshi Hara y Katsuhisa Sugimoto. "Response Characteristics of YSZ Oxygen Sensor with a Ag·YSZ Composite Thin Film Electrode". Journal of the Japan Institute of Metals 65, n.º 10 (2001): 916–21. http://dx.doi.org/10.2320/jinstmet1952.65.10_916.

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9

Zhu, Liangzhu y Anil V. Virkar. "Sodium, Silver and Lithium-Ion Conducting β″-Alumina + YSZ Composites, Ionic Conductivity and Stability". Crystals 11, n.º 3 (16 de marzo de 2021): 293. http://dx.doi.org/10.3390/cryst11030293.

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Na-β″-alumina (Na2O.~6Al2O3) is known to be an excellent sodium ion conductor in battery and sensor applications. In this study we report fabrication of Na- β″-alumina + YSZ dual phase composite to mitigate moisture and CO2 corrosion that otherwise can lead to degradation in pure Na-β″-alumina conductor. Subsequently, we heat-treated the samples in molten AgNO3 and LiNO3 to respectively form Ag-β″-alumina + YSZ and Li-β″-alumina + YSZ to investigate their potential applications in silver- and lithium-ion solid state batteries. Ion exchange fronts were captured via SEM and EDS techniques. Their ionic conductivities were measured using electrochemical impedance spectroscopy. Both ion exchange rates and ionic conductivities of these composite ionic conductors were firstly reported here and measured as a function of ion exchange time and temperature.
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10

Kim, J. Y., J. S. Hardy y K. S. Weil. "Silver-copper oxide based reactive air braze for joining yttria-stabilized zirconia". Journal of Materials Research 20, n.º 3 (1 de marzo de 2005): 636–43. http://dx.doi.org/10.1557/jmr.2005.0088.

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We investigated a new method of ceramic-to-metal joining, referred to as reactive air brazing, as a potential method of sealing ceramic components in high-temperature electrochemical devices. Sessile drop wetting experiments and joint strength testing were conducted using yttria stabilized zirconia (YSZ) substrates and CuO–Ag-based air brazes. Results from our studies indicate that the wettability of the braze improves substantially with increasing CuO content, over a compositional range of 1–8 mol% CuO, which is accompanied by an increase in the bend strength of the corresponding brazed YSZ joint. The addition of a small amount of TiO2 (0.5 mol%) to the CuO–Ag braze further improves wettability due to the formation of a titanium zirconate reaction product along the braze/substrate interface. However, with one notable exception, the bend strength of these ternary braze joints remained nearly identical to those measured in comparable binary braze joints. Scanning electron microscopy analysis conducted on the corresponding fracture surfaces indicated that in the binary braze joints, failure occurs primarily at the braze/YSZ interface. Similarly in the case of the ternary, TiO2-doped brazes joint failure occurs predominantly along the interface between the braze filler metal and the underlying titanium zirconate reaction layer.
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11

Muratore, C., A. A. Voevodin, J. J. Hu y J. S. Zabinski. "Multilayered YSZ–Ag–Mo/TiN adaptive tribological nanocomposite coatings". Tribology Letters 24, n.º 3 (15 de noviembre de 2006): 201–6. http://dx.doi.org/10.1007/s11249-006-9143-3.

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12

Meng, Xiuxia, Jaka Sunarso, Yun Jin, Xiuxiu Bi, Naitao Yang, Xiaoyao Tan, Shaobin Wang y Shaomin Liu. "Robust CO2 and H2 resistant triple-layered (Ag-YSZ)/YSZ/(La0.8Sr0.2MnO3-δ-YSZ) hollow fiber membranes with short-circuit for oxygen permeation". Journal of Membrane Science 524 (febrero de 2017): 596–603. http://dx.doi.org/10.1016/j.memsci.2016.11.071.

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13

Poulianitis, Constantinos, Vasiliki Maragou, Aiyu Yan, Shuqin Song y Panagiotis Tsiakaras. "Investigation of the Reaction of Ethanol-Steam Mixtures in a YSZ Electrochemical Reactor Operated in a Fuel Cell Mode". Journal of Fuel Cell Science and Technology 3, n.º 4 (28 de febrero de 2006): 459–63. http://dx.doi.org/10.1115/1.2349529.

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In the present investigation ethanol-water mixtures were directly fed to a yttria stabilized zirconia (YSZ) electrochemical reactor operated in a fuel cell mode and the preliminary results are presented and discussed. Polycrystalline films of platinum (Pt) and silver (Ag) were, respectively, tested as anode catalysts in a wide range of experimental conditions while the cathode was exposed to the atmospheric air. The single direct ethanol solid oxide fuel cell (DE-SOFC) tests were performed in order to investigate separately Pt and Ag’s activities towards ethanol steam reaction and fuel cell performance (Pt‐DESOFC and Ag‐DESOFC). In both cases the products were on-line analyzed by a mass spectrograph, a gas chromatograph and a series of gas analysers under fuel cell mode of operation. The results showed that even at high temperature values (>750°C) the main products were CH3CHO, CH4, CO, H2, and CO2. Furthermore, as expected the single DESOFC performance was improved as the temperature increased. However, a relatively poor fuel cell performance has been obtained in both cases, which could be attributed to the following reasons: the relatively low (for YSZ electrolyte) operation temperature, the presence of homogeneous reactions, and the cell configuration.
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14

Saito, Yukinori, Yuji Imamura y Akiharu Kitahara. "Absorption in the visible region of YSZ implanted with Ag ions". Colloids and Surfaces B: Biointerfaces 19, n.º 3 (diciembre de 2000): 275–79. http://dx.doi.org/10.1016/s0927-7765(00)00166-1.

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15

Wang, Zhiquan, Chun Li, Xiaoqing Si, Bo Yang, Yongxian Huang, Junlei Qi, Jicai Feng y Jian Cao. "Brazing YSZ ceramics by a novel SiO2 nanoparticles modified Ag filler". Ceramics International 46, n.º 10 (julio de 2020): 16493–501. http://dx.doi.org/10.1016/j.ceramint.2020.03.214.

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16

Hamakawa, Satoshi, Koichi Sato, Takashi Hayakawa, Andrew P. E. York, Tatsuo Tsunoda, Kunio Suzuki, Masao Shimizu y Katsuomi Takehira. "Selective Oxidation of Ethane Using the Au|YSZ|Ag Electrochemical Membrane System". Journal of The Electrochemical Society 144, n.º 1 (1 de enero de 1997): 1–5. http://dx.doi.org/10.1149/1.1837357.

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17

Huang, Xiqiang, Tingting Li, Zhe Lu, Zhen Wang, Bo Wei y Wenhui Su. "Investigations on Pr1.6Sr0.4NiO4–YSZ–Ag composite cathode for solid oxide fuel cells". Journal of Physics and Chemistry of Solids 71, n.º 3 (marzo de 2010): 230–34. http://dx.doi.org/10.1016/j.jpcs.2009.11.010.

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18

Cavoué, T., A. Caravaca, I. Kalaitzidou, F. Gaillard, M. Rieu, J. P. Viricelle y P. Vernoux. "Ethylene epoxidation on Ag/YSZ electrochemical catalysts: Understanding of oxygen electrode reactions". Electrochemistry Communications 105 (agosto de 2019): 106495. http://dx.doi.org/10.1016/j.elecom.2019.106495.

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19

Tsunoda, T., T. Hayakawa, Y. Imai, T. Kameyama, K. Takehira y K. Fukuda. "Propene oxidation over MoO3 film deposited on an Au|YSZ|Ag system". Catalysis Today 25, n.º 3-4 (agosto de 1995): 371–76. http://dx.doi.org/10.1016/0920-5861(95)00113-t.

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20

Takehira, K., T. Hayakawa, S. Hamakawa, T. Tsunoda, K. Sato, J. Nakamura y T. Uchijima. "Direct partial oxidation of methane into synthesis gas over Rh|YSZ|Ag". Catalysis Today 29, n.º 1-4 (mayo de 1996): 397–402. http://dx.doi.org/10.1016/0920-5861(95)00310-x.

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21

Mosiałek, M., E. Bielańska, R. P. Socha, M. Dudek, G. Mordarski, P. Nowak, J. Barbasz y A. Rapacz-Kmita. "Changes in the morphology and the composition of the Ag|YSZ and Ag|LSM interfaces caused by polarization". Solid State Ionics 225 (octubre de 2012): 755–59. http://dx.doi.org/10.1016/j.ssi.2012.03.011.

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22

Lu, Qi, Xishuang Liang y Geyu Lu. "YSZ-Based Mixed Potential Type NH3 Sensor Attached with Ag Doped FeVO4 Sensing Electrode". ECS Meeting Abstracts MA2021-01, n.º 56 (30 de mayo de 2021): 1514. http://dx.doi.org/10.1149/ma2021-01561514mtgabs.

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23

Hu, J. J., C. Muratore y A. A. Voevodin. "Silver diffusion and high-temperature lubrication mechanisms of YSZ–Ag–Mo based nanocomposite coatings". Composites Science and Technology 67, n.º 3-4 (marzo de 2007): 336–47. http://dx.doi.org/10.1016/j.compscitech.2006.09.008.

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24

Bailey, A., G. Alvarez, T. Puzzer, S. L. Town, G. J. Russell y K. N. R. Taylor. "Josephson behaviour for high critical current density YBCO+Ag thick films on YSZ substrates". Physica C: Superconductivity 167, n.º 1-2 (abril de 1990): 133–38. http://dx.doi.org/10.1016/0921-4534(90)90496-2.

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25

Hong, Jin Ki, In-Hwan Oh, Seong-Ahn Hong y Wha Young Lee. "The effect of anodic polarization on a Ag electrode deposited on YSZ solid electrolyte". Applied Surface Science 89, n.º 3 (julio de 1995): 229–35. http://dx.doi.org/10.1016/0169-4332(95)00042-9.

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26

Hu, Su, Qing Shan Li, Yi Feng Zheng, Shi Hao Wei y Cheng Xu. "Enhanced Performance of Ag-Doped Oxygen Electrode Based Solid Oxide Electrolyser Cell under High Temperature Electrolysis of Steam". Materials Science Forum 783-786 (mayo de 2014): 1708–13. http://dx.doi.org/10.4028/www.scientific.net/msf.783-786.1708.

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Solid oxide electrolyser (SOE) has been receiving increasing attention due to its potential applications in large-scale hydrogen production and carbon dioxide recycling for fuels. Improving the performance of SOE cell through oxygen electrode development has been of main interest because the major polarization loss of the SOE cell is at the oxygen electrode during high temperature electrolysis (HTE). In the present study, Ag was doped into (La0.75Sr0.25)0.95MnO3+δ(LSM) based oxygen electrode of Ni/YSZ cathode-supported SOE cell through a solid state method enhanced by ball milling. Short stacks were manufactured using doped and undoped cells and tested under HTE of steam at 800°C up to 150h for in situ comparative study of doping effect. The cells with doped oxygen electrodes showed less polarization loss, lower resistance and improved performance by comparison with the undoped cell. Post-mortem examination revealed Ag migrated from the current collecting layer to the electrolyte/anode interface, which may promote the cell performance.
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27

Sato, Koichi, Junji Nakamura, Toshio Uchijima, Takashi Hayakawa, Satoshi Hamakawa, Tatsuo Tsunoda y Katsuomi Takehira. "Partial oxidation of CH4 to synthesis gas using an Rh |YSZ|Ag electrochemical membrane reactor". Journal of the Chemical Society, Faraday Transactions 91, n.º 11 (1995): 1655. http://dx.doi.org/10.1039/ft9959101655.

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28

Sun, Z., L. X. Zhang, X. Li y S. S. Zhang. "Reactive air brazing of the YSZ/AISI 310s couples using a novel Ag–Nb2O5 sealant". Ceramics International 46, n.º 4 (marzo de 2020): 5168–74. http://dx.doi.org/10.1016/j.ceramint.2019.10.262.

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29

Tsiplakides, D., S. Neophytides y C. G. Vayenas. "Thermal desorption study of Oxygen adsorption on Pt, Ag & Au films deposited on YSZ". Ionics 3, n.º 3-4 (mayo de 1997): 201–8. http://dx.doi.org/10.1007/bf02375617.

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30

Ramos, Ines A. Carbajal, Tiziano Montini, Barbara Lorenzut, Horacio Troiani, Fabiana C. Gennari, Mauro Graziani y Paolo Fornasiero. "Hydrogen production from ethanol steam reforming on M/CeO2/YSZ (M=Ru, Pd, Ag) nanocomposites". Catalysis Today 180, n.º 1 (enero de 2012): 96–104. http://dx.doi.org/10.1016/j.cattod.2011.03.068.

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31

Liang, Hanying, Baofang Jin, Min Li, Xiaoxian Yuan, Jie Wan, Wei Liu, Xiaodong Wu y Shuang Liu. "Highly reactive and thermally stable Ag/YSZ catalysts with macroporous fiber-like morphology for soot combustion". Applied Catalysis B: Environmental 294 (octubre de 2021): 120271. http://dx.doi.org/10.1016/j.apcatb.2021.120271.

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32

Yang, Young-Chang y Chong-Ook Park. "Oxygen sensor for the low temperature-measurement using yttria stabilized zirconia(YSZ) electrolyte and Ag electrode". Journal of Sensor Science and Technology 15, n.º 2 (31 de marzo de 2006): 97–101. http://dx.doi.org/10.5369/jsst.2006.15.2.097.

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33

Kaklidis, N., I. Garagounis, V. Kyriakou, V. Besikiotis, A. Arenillas, J. A. Menéndez, G. E. Marnellos y M. Konsolakis. "Direct utilization of lignite coal in a Co–CeO 2 /YSZ/Ag solid oxide fuel cell". International Journal of Hydrogen Energy 40, n.º 41 (noviembre de 2015): 14353–63. http://dx.doi.org/10.1016/j.ijhydene.2015.02.007.

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34

Amado, M. Moreno, J. E. Alfonso y J. J. Olaya Florez. "Effect of Al and Ag dopants on the corrosion resistance of the AISI 316L-YSZ system". Ceramics International 45, n.º 1 (enero de 2019): 566–72. http://dx.doi.org/10.1016/j.ceramint.2018.09.209.

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35

TAKEHIRA, K., J. SHIMOMURA, S. HAMAKAWA, T. SHISHIDO, T. KAWABATA y K. TAKAKI. "Partial oxidation of CH to synthesis gas using Ni-catalyst/Au|YSZ|Ag electrochemical membrane reactor". Applied Catalysis B: Environmental 55, n.º 2 (28 de enero de 2005): 93–103. http://dx.doi.org/10.1016/j.apcatb.2004.08.002.

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36

Hayakawa, T., K. Sato, T. Tsunoda, S. Hamakawa, K. Suzuki, J. Nakamura, K. Takehira y T. Uchijima. "Partial oxidation of methane: continuous production of synthesis gas over Rh/YSZ/Ag under oxygen supply". Journal of the Chemical Society, Chemical Communications, n.º 16 (1994): 1899. http://dx.doi.org/10.1039/c39940001899.

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37

Singh, Mrityunjay, Tarah P. Shpargel y Rajiv Asthana. "Brazing of yttria-stabilized zirconia (YSZ) to stainless steel using Cu, Ag, and Ti-based brazes". Journal of Materials Science 43, n.º 1 (8 de noviembre de 2007): 23–32. http://dx.doi.org/10.1007/s10853-007-1985-z.

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38

Tkaczyk, J. E., J. A. Sutliff, J. A. DeLuca, P. J. Bednarczyk, C. L. Briant, Z. L. Wang, A. Goyal, D. M. Kroeger, D. H. Lowndes y E. D. Specht. "Texture and transport in spray pyrolyzed TlBa2Ca2Cu3O9 thick films". Journal of Materials Research 10, n.º 9 (septiembre de 1995): 2203–10. http://dx.doi.org/10.1557/jmr.1995.2203.

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The electron backscattering pattern technique has been applied to the microstructural investigation of Tl(1223) thick films formed by vapor-phase thallination of Ag-containing Ba–Ca–Cu–oxide precursors. For samples grown on polycrystalline YSZ, considerable biaxial alignment is found in localized, multigrain regions as wide a 100 μm or more. However, on scales above 1 mm the overall texture remains only uniaxial with the c-axes (i.e., [001]) aligned perpendicular to the plane of the substrate. On single-crystal KTaO3 an epitaxial relationship is evident which persists to the surface of a 3 μm thick film. Modest variations in the processing protocol yield films containing grains oriented with the c-axis in the plane, resulting in the degradation of transport properties. The data suggest a growth mode in which sparse nucleation occurs at the substrate followed by rapid lateral crystallization.
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39

Choi, S. H., C. S. Hwang y M. H. Lee. "Performance Enhancement of Freestanding Micro-SOFCs with Ceramic Electrodes by the Insertion of a YSZ-Ag Interlayer". ECS Electrochemistry Letters 3, n.º 9 (11 de julio de 2014): F57—F59. http://dx.doi.org/10.1149/2.0011409eel.

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40

Ciszek, M., O. Tsukamoto, N. Amemiya, J. Ogawa, O. Kasuu, H. Ii, K. Takeda y M. Shibuya. "Angular dependence of AC transport current losses in biaxially aligned Ag/YBCO-123/YSZ/Hastelloy coated conductor". IEEE Transactions on Appiled Superconductivity 10, n.º 1 (marzo de 2000): 1138–41. http://dx.doi.org/10.1109/77.828434.

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41

Williams, Federico J., Norman Macleod, Mintcho S. Tikhov y Richard M. Lambert. "Electrochemical promotion of bimetallic RhAg/YSZ catalysts for the reduction of NO under lean burn conditions". Electrochimica Acta 47, n.º 8 (febrero de 2002): 1259–65. http://dx.doi.org/10.1016/s0013-4686(01)00856-8.

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42

Im, Younghwan, Jae Hyung Lee, Byeong Sub Kwak, Jeong Yeon Do y Misook Kang. "Effective hydrogen production from propane steam reforming using M/NiO/YSZ catalysts (M = Ru, Rh, Pd, and Ag)". Catalysis Today 303 (abril de 2018): 168–76. http://dx.doi.org/10.1016/j.cattod.2017.08.056.

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Bai, Ying, Xue Mao, Jun Song, Xia Yin, Jianyong Yu y Bin Ding. "Self-standing Ag 2 O@YSZ-TiO 2 p-n nanoheterojunction composite nanofibrous membranes with superior photocatalytic activity". Composites Communications 5 (septiembre de 2017): 13–18. http://dx.doi.org/10.1016/j.coco.2017.04.004.

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Lin, Kun-Lin, Mrityunjay Singh y Rajiv Asthana. "Interfacial characterization of YSZ-to-steel joints with Ag–Cu–Pd interlayers for solid oxide fuel cell applications". Ceramics International 38, n.º 3 (abril de 2012): 1991–98. http://dx.doi.org/10.1016/j.ceramint.2011.10.033.

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Lin, Kun-Lin, Mrityunjay Singh, Rajiv Asthana y Chao-Hsien Lin. "Interfacial and mechanical characterization of yttria-stabilized zirconia (YSZ) to stainless steel joints fabricated using Ag–Cu–Ti interlayers". Ceramics International 40, n.º 1 (enero de 2014): 2063–71. http://dx.doi.org/10.1016/j.ceramint.2013.07.119.

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Zhang, Hongjie, Gang Chen, Xiaodong He y Yonggang Li. "Electronic structure and water splitting under visible-light irradiation of Zn and Ag co-doped In(OH)ySz photocatalysts". International Journal of Hydrogen Energy 37, n.º 7 (abril de 2012): 5532–39. http://dx.doi.org/10.1016/j.ijhydene.2011.12.155.

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Toghan, Arafat, Rosa Arrigo, Axel Knop-Gericke y Ronald Imbihl. "Ambient pressure X-ray photoelectron spectroscopy during electrochemical promotion of ethylene oxidation over a bimetallic Pt–Ag/YSZ catalyst". Journal of Catalysis 296 (diciembre de 2012): 99–109. http://dx.doi.org/10.1016/j.jcat.2012.09.006.

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Kim, Dong Hwan, Kiho Bae, Hyung Jong Choi y Joon Hyung Shim. "Ag surface-coated with nano-YSZ as an alternative to Pt catalyst for low-temperature solid oxide fuel cells". Journal of Alloys and Compounds 769 (noviembre de 2018): 545–51. http://dx.doi.org/10.1016/j.jallcom.2018.08.005.

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Gavrielatos, I., D. Montinaro, A. Orfanidi y S. G. Neophytides. "Thermogravimetric and Electrocatalytic Study of Carbon Deposition of Ag-doped Ni/YSZ Electrodes under Internal CH4 Steam Reforming Conditions". Fuel Cells 9, n.º 6 (diciembre de 2009): 883–90. http://dx.doi.org/10.1002/fuce.200800181.

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Si, Xiaoqing, Jian Cao, Xiaoguo Song, Yang Qu y Jicai Feng. "Reactive air brazing of YSZ ceramic with novel Al2O3 nanoparticles reinforced Ag-CuO-Al2O3 composite filler: Microstructure and joint properties". Materials & Design 114 (enero de 2017): 176–84. http://dx.doi.org/10.1016/j.matdes.2016.10.062.

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