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Journal articles on the topic 'Oxygen conductor'

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Author: Grafiati
Published: 4 June 2021
Last updated: 28 January 2023

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1

Dumélié, M., G. Nowogrocki, and J. C. Boivin. "Ionic conductor membrane for oxygen separation." Solid State Ionics 28-30 (September 1988): 524–28. http://dx.doi.org/10.1016/s0167-2738(88)80095-x.

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2

Zhu, Xuefeng, and Weishen Yang. "Composite membrane based on ionic conductor and mixed conductor for oxygen permeation." AIChE Journal 54, no. 3 (2008): 665–72. http://dx.doi.org/10.1002/aic.11410.

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3

Bastide, Béatrice, Sylvie Villain, Renée Enjalbert, and Jean Galy. "Oxygen diffusion pathway in the anionic conductor Bi26Mo9GeO68." Solid State Sciences 4, no. 5 (April 2002): 599–608. http://dx.doi.org/10.1016/s1293-2558(02)01303-1.

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4

Michel, C., L. Er-Rakho, and B. Raveau. "The oxygen defect perovskite BaLa4Cu5O13.4, a metallic conductor." Materials Research Bulletin 20, no. 6 (June 1985): 667–71. http://dx.doi.org/10.1016/0025-5408(85)90144-8.

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5

Bastide, Beatrice, Sylvie Villain, Renee Enjalbert, and Jean Galy. "Oxygen Diffusion Pathway in the Anionic Conductor Bi26Mo9GeO68." ChemInform 33, no. 35 (May 20, 2010): 12. http://dx.doi.org/10.1002/chin.200235012.

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6

Kramer, S. "A novel titanate-based oxygen ion conductor: Gd2Ti2O7." Solid State Ionics 82, no. 1-2 (November 15, 1995): 15–23. http://dx.doi.org/10.1016/0167-2738(95)00156-z.

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7

SCHOBER, T. "Transformation of an oxygen ion conductor to a proton conductor by solid state reaction." Solid State Ionics 176, no. 29-30 (September 2005): 2275–77. http://dx.doi.org/10.1016/j.ssi.2005.06.021.

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8

Paulus, Werner, Rajesh Dutta, Avishek Maity, Anna Marsicano, Monica Ceretti, and Alexei Bosak. "Sub-mesoscale oxygen ordering in non-stoichiometric oxygen ion conductor Pr2NiO4+δ." Acta Crystallographica Section A Foundations and Advances 75, a2 (August 18, 2019): e428-e428. http://dx.doi.org/10.1107/s2053273319091289.

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9

Martin, M. "Cation Demixing in an Oxygen Ion Conductor Exposed to an Oxygen Potential Gradient." ECS Proceedings Volumes 1999-19, no. 1 (January 1999): 308–16. http://dx.doi.org/10.1149/199919.0308pv.

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10

Matsushita, Y., A. Roushown, F. Izumi, H. Kitazawa, and M. Yashima. "Ionic path in oxygen-ionic conductor La9.70(Si5.8Mg0.2)O26.35." Acta Crystallographica Section A Foundations of Crystallography 63, a1 (August 22, 2007): s218. http://dx.doi.org/10.1107/s0108767307095025.

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11

Kim, S. "Oxygen surface exchange in mixed ionic electronic conductor membranes." Solid State Ionics 121, no. 1-4 (June 1999): 31–36. http://dx.doi.org/10.1016/s0167-2738(98)00389-0.

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12

Aceves Hernández, J. "Current-voltage curves from a Bi2O3_Y2O3 oxygen ion conductor." Solid State Ionics 31, no. 3 (December 1988): 231–39. http://dx.doi.org/10.1016/0167-2738(88)90274-3.

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13

Huang, Keqin, Changzhen Wang, and Xiuguang Xu. "Activity of Bi2O3 in Bi2O3Y2O3 oxygen ion conductor." Journal of Solid State Chemistry 98, no. 1 (May 1992): 206–9. http://dx.doi.org/10.1016/0022-4596(92)90088-d.

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14

NAGASHIMA, Kunio, Takashi ISHIMATSU, Toshiyuki HOBO, and Yasukazu ASANO. "Potentiometric oxygen sensor using bismuth oxideyttrium oxide ion conductor." Bunseki kagaku 39, no. 4 (1990): 229–32. http://dx.doi.org/10.2116/bunsekikagaku.39.4_229.

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15

Aguadero, A., M. J. Escudero, M. Pérez, J. A. Alonso, and L. Daza. "Hyperstoichiometric La1.9Sr0.1NiO4+δ Mixed Conductor as Novel Cathode for Intermediate Temperature Solid Oxide Fuel Cells." Journal of Fuel Cell Science and Technology 4, no. 3 (June 8, 2006): 294–98. http://dx.doi.org/10.1115/1.2743075.

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The materials La2−xSrxNiO4+δ(x=0,0.1) with K2NiF4 structure have been studied in order to explore their potential use as cathodes for intermediate temperature solid oxide fuel cells. The introduction of Sr in the La2NiO4+δ lattice produces an enhancement of the electric conductivity but is accompanied by a decrease of ionic transport species. Neutron powder diffraction data show a transition from orthorhombic to tetragonal symmetry with the incorporation of Sr in the LaO sublattice. Excess oxygen determined by iodometric titration shows that strontium insertion generates a decrease of the interstitial oxygen. In order to avoid the concomitant decrease of the ionic conductivity, the system underwent heat treatments under high oxygen pressure (200bar, 650°C). As a result, the O2− treated La1.9Sr0.1NiO4+δ exhibited an increase of the amount of interstitial oxygens (δ=0.17) but with improved electronic properties. The polarization resistances measured for these materials vary between 8Ωcm2 and 0.1Ωcm2 in air at the temperature range of 700–975°C. This remarkable behavior enables us to propose this material as an alternative cathode for IT-SOFC.
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16

Lu, Jun, Yan Xin, Brent Jarvis, and Hongyu Bai. "Oxygen out-diffusion in REBCO coated conductor due to heating." Superconductor Science and Technology 34, no. 7 (May 24, 2021): 075004. http://dx.doi.org/10.1088/1361-6668/abfd0c.

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17

Choi, G. M., H. L. Tuller, and J. S. Haggerty. "Alpha ‐ Ta2 O 5 : An Intrinsic Fast Oxygen Ion Conductor." Journal of The Electrochemical Society 136, no. 3 (March 1, 1989): 835–38. http://dx.doi.org/10.1149/1.2096752.

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18

Schober, T. "The oxygen and proton conductor Ba2In2O5: Thermogravimetry of proton uptake." Solid State Ionics 113-115, no. 1-2 (December 1, 1998): 369–75. http://dx.doi.org/10.1016/s0167-2738(98)00302-6.

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19

Cho, Hansang, Go Sakai, Kengo Shimanoe, and Noboru Yamazoe. "Behavior of oxygen concentration cells using BiCuVOx oxide-ion conductor." Sensors and Actuators B: Chemical 108, no. 1-2 (July 2005): 335–40. http://dx.doi.org/10.1016/j.snb.2004.10.043.

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20

Liu, Chao-feng, Hong Zhang, Zhe Zhang, Jun-xiao Xia, and Zhi-cheng Li. "Fabrication and characterization of composite YSZ-La9.33Si6O26 oxygen-ion conductor." Journal of Central South University 19, no. 1 (January 2012): 22–29. http://dx.doi.org/10.1007/s11771-012-0967-8.

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21

WEPPNER, W. "Tetragonal zirconia polycrystals — a high performance solid oxygen ion conductor." Solid State Ionics 52, no. 1-3 (May 1992): 15–21. http://dx.doi.org/10.1016/0167-2738(92)90087-6.

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22

Zhang, Fangfang, Minchen Yang, Siyi Zhang, and Pengfei Fang. "Protic Imidazolium Polymer as Ion Conductor for Improved Oxygen Evolution Performance." Polymers 11, no. 8 (July 31, 2019): 1268. http://dx.doi.org/10.3390/polym11081268.

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Improving the electrocatalytic performance of oxygen evolution reaction (OER) is essential for oxygen-involved electrochemical devices, including water splitting and rechargeable metal–air batteries. In this work, we report that the OER performance of commercial catalysts of IrO2, Co3O4, and Pt-C can be improved by replacing the traditional Nafion® ionomer with newly synthesized copolymers consisting of protonated imidazolium moieties such as ion conductors and binders in electrodes. Specifically, such an improvement in OER performance for all the tested catalysts is more significant in basic and neutral environments than that under acidic conditions. We anticipate that the results will provide new ideas for the conceptual design of electrodes for oxygen-involved electrochemical devices.
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23

Geary, Tim C., and Stuart B. Adler. "Oxygen nonstoichiometry and defect chemistry of the mixed conductor La0.9Ca0.1FeO3−δ at low oxygen partial pressure." Solid State Ionics 253 (December 2013): 88–93. http://dx.doi.org/10.1016/j.ssi.2013.08.039.

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24

MIURA, Norio, Nobuaki YOSHIDA, Naoko MATAYOSHI, Youichi SHIMIZU, Shigeki KUWATA, and Noboru YAMAZOE. "Oxygen Sensor Using Proton-Conductor Thick-Film Operative at Room Temperature." Journal of the Ceramic Society of Japan 97, no. 1130 (1989): 1300–1303. http://dx.doi.org/10.2109/jcersj.97.1300.

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25

Tao, Shanwen, Finn Willy Poulsen, Guangyao Meng, and Ole Toft Sørensen. "High-temperature stability study of the oxygen-ion conductor La0.9Sr0.1Ga0.8Mg0.2O3 − x." Journal of Materials Chemistry 10, no. 8 (2000): 1829–33. http://dx.doi.org/10.1039/b003890n.

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26

Pennycook, T. J., M. P. Oxley, J. Garcia-Barriocanal, F. Y. Bruno, C. Leon, J. Santamaria, S. T. Pantelides, M. Varela, and S. J. Pennycook. "Seeing oxygen disorder in YSZ/SrTiO3colossal ionic conductor heterostructures using EELS." European Physical Journal Applied Physics 54, no. 3 (June 2011): 33507. http://dx.doi.org/10.1051/epjap/2011100413.

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27

Hu, Y., O. Hernandez, T. Broux, M. Bahout, J. Hermet, A. Ottochian, C. Ritter, G. Geneste, and G. Dezanneau. "Oxygen diffusion mechanism in the mixed ion-electron conductor NdBaCo2O5+x." Journal of Materials Chemistry 22, no. 36 (2012): 18744. http://dx.doi.org/10.1039/c2jm34396g.

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28

Boukamp, B. "Comment on “Current-voltage curves from a Bi2O3-Y2O3 oxygen conductor”." Solid State Ionics 37, no. 4 (March 1990): 323–24. http://dx.doi.org/10.1016/0167-2738(90)90195-w.

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29

Kurek, P., J. R. Dygas, and M. W. Breiter. "Impedance measurements on single crystals of the oxygen ion conductor BICUVOX." Journal of Electroanalytical Chemistry 378, no. 1-2 (November 1994): 77–83. http://dx.doi.org/10.1016/0022-0728(94)87058-6.

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30

Zhao, Hailei, Nansheng Xu, Yunfei Cheng, Wenjing Wei, Ning Chen, Weizhong Ding, Xionggang Lu, and Fushen Li. "Investigation of Mixed Conductor BaCo0.7Fe0.3−xYxO3−δ with High Oxygen Permeability." Journal of Physical Chemistry C 114, no. 41 (September 27, 2010): 17975–81. http://dx.doi.org/10.1021/jp106220z.

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31

Speckmann, Friedrich-W., Daniel Müller, Jürgen Köhler, and Kai Peter Birke. "Low pressure glow-discharge methanation with an ancillary oxygen ion conductor." Journal of CO2 Utilization 19 (May 2017): 130–36. http://dx.doi.org/10.1016/j.jcou.2017.03.003.

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32

Esmaeilzadeh, Saeid, Pedro Berastegui, Jekabs Grins, and Håkan Rundlöf. "Crystal Growth and Structural Investigations of the Oxygen Ion Conductor BaBi3O5.5." Journal of Solid State Chemistry 152, no. 2 (July 2000): 435–40. http://dx.doi.org/10.1006/jssc.2000.8701.

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33

Cheng, Shiqing, Rongxian Zhang, Wenjuan Zhu, Wentao Ke, and Eryan Li. "CoS nanowires mediated by superionic conductor Ag2S for boosted oxygen evolution." Applied Surface Science 518 (July 2020): 146106. http://dx.doi.org/10.1016/j.apsusc.2020.146106.

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34

López, Carlos A., José C. Pedregosa, María T. Fernández-Díaz, and José A. Alonso. "High-temperature dynamic octahedral tilting in the ionic conductor Sr11Mo4O23." Journal of Applied Crystallography 49, no. 1 (February 1, 2016): 78–84. http://dx.doi.org/10.1107/s160057671502261x.

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This work presents the crystal structure evolution of a novel ionic conductor Sr11Mo4O23at high temperature. The formula of this phase can be rewritten as Sr1.75□0.25SrMoO5.75, highlighting the relationship with double perovskitesA2B′B′′O6. The crystal network contains oxygen-anion and strontium-cation vacancies. The structure is complex; Sr, Mo and O atoms are distributed in four, two and six distinct Wyckoff sites, respectively. It was refined from neutron powder diffraction data collected at 473, 673, 873 and 1073 K. The thermal evolution of crystallographic parameters supports the known reversible process of removal/uptake of O-atom content in the 673–873 K temperature range. Above 873 K, from difference Fourier maps, it was found that the structure exhibits an oxygen delocalization around one of the Mo sites. This delocalization was understood as a dynamical octahedral tilt of the MoO6octahedron, yielding an increase in the ionic conductivity at high temperature.
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35

Zhang, Wenrui, Kotaro Fujii, Tomohiro Ishiyama, Harue Kandabashi, and Masatomo Yashima. "Dion–Jacobson-type oxide-ion conductor CsLa2Ti2NbO10−δ without phase transitions." Journal of Materials Chemistry A 8, no. 47 (2020): 25085–93. http://dx.doi.org/10.1039/d0ta06135b.

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36

Wang, Yuanzhi, Hongwei Cheng, Sha Chen, Hongbin Zhao, Xionggang Lu, and Qian Xu. "CO2-tolerance and oxygen permeability of novel cobalt-free mixed-conductor oxygen-permeable Pr0.6Sr0.4Fe1-Nb O3- membranes." Ceramics International 43, no. 16 (November 2017): 13791–99. http://dx.doi.org/10.1016/j.ceramint.2017.07.099.

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37

Geary, T. C., and S. B. Adler. "Oxygen Nonstoichiometry and Defect Chemistry of Mixed Conductor La0.9Ca0.1FeO3- at Low PO2." ECS Transactions 45, no. 1 (April 27, 2012): 349–53. http://dx.doi.org/10.1149/1.3701326.

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38

Animitsa, I. "Phase relations during water incorporation in the oxygen and proton conductor Sr6Ta2O11." Solid State Ionics 156, no. 1-2 (January 2003): 95–102. http://dx.doi.org/10.1016/s0167-2738(02)00605-7.

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39

Yamamura, Y. "Materials design of perovskite-based oxygen ion conductor by molecular dynamics method." Solid State Ionics 160, no. 1-2 (May 2003): 93–101. http://dx.doi.org/10.1016/s0167-2738(03)00154-1.

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40

Liu, J., R. J. Chater, B. Hagenhoff, R. J. H. Morris, and S. J. Skinner. "Surface enhancement of oxygen exchange and diffusion in the ionic conductor La2Mo2O9." Solid State Ionics 181, no. 17-18 (June 17, 2010): 812–18. http://dx.doi.org/10.1016/j.ssi.2010.04.009.

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41

Demin, A. K., E. V. Gorbova, M. V. Glumov, and P. E. Tsiakaras. "Charge transfer in mixed proton, oxygen ion and electron solid oxide conductor." Ionics 11, no. 3-4 (May 2005): 289–93. http://dx.doi.org/10.1007/bf02430391.

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42

Holmes, Lesley, Luming Peng, Ivo Heinmaa, Luke A. O’Dell, Mark E. Smith, Rose-Noelle Vannier, and Clare P. Grey. "Variable-Temperature17O NMR Study of Oxygen Motion in the Anionic Conductor Bi26Mo10O69." Chemistry of Materials 20, no. 11 (June 2008): 3638–48. http://dx.doi.org/10.1021/cm800351c.

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43

Khan, M. S., M. S. Islam, and D. R. Bates. "Dopant Substitution and Ion Migration in the LaGaO3-Based Oxygen Ion Conductor." Journal of Physical Chemistry B 102, no. 17 (April 1998): 3099–104. http://dx.doi.org/10.1021/jp972819d.

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44

Geffroy, P. M., E. Blond, N. Richet, and T. Chartier. "Understanding and identifying the oxygen transport mechanisms through a mixed-conductor membrane." Chemical Engineering Science 162 (April 2017): 245–61. http://dx.doi.org/10.1016/j.ces.2017.01.006.

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45

Xie, Dong, Ao Ling, Dong Yan, Lichao Jia, Bo Chi, Jian Pu, and Jian Li. "A comparative study on the composite cathodes with proton conductor and oxygen ion conductor for proton-conducting solid oxide fuel cell." Electrochimica Acta 344 (June 2020): 136143. http://dx.doi.org/10.1016/j.electacta.2020.136143.

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46

Meynard, Delphine, Jodie L. Babitt, and Herbert Y. Lin. "The liver: conductor of systemic iron balance." Blood 123, no. 2 (January 9, 2014): 168–76. http://dx.doi.org/10.1182/blood-2013-06-427757.

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Abstract Iron is a micronutrient essential for almost all organisms: bacteria, plants, and animals. It is a metal that exists in multiple redox states, including the divalent ferrous (Fe2+) and the trivalent ferric (Fe3+) species. The multiple oxidation states of iron make it excellent for electron transfer, allowing iron to be selected during evolution as a cofactor for many proteins involved in central cellular processes including oxygen transport, mitochondrial respiration, and DNA synthesis. However, the redox cycling of ferrous and ferric iron in the presence of H2O2, which is physiologically present in the cells, also leads to the production of free radicals (Fenton reaction) that can attack and damage lipids, proteins, DNA, and other cellular components. To meet the physiological needs of the body, but to prevent cellular damage by iron, the amount of iron in the body must be tightly regulated. Here we review how the liver is the central conductor of systemic iron balance and show that this central role is related to the secretion of a peptide hormone hepcidin by hepatocytes. We then review how the liver receives and integrates the many signals that report the body’s iron needs to orchestrate hepcidin production and maintain systemic iron homeostasis.
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47

Chen, Cunguang, Feng Li, Weihao Han, Tianxing Lu, Pei Li, Qianyue Cui, Yanli Sui, Zhimeng Guo, and Alex A. Volinsky. "Thermally stable Al conductor prepared from Al powder with a low oxygen content." Materials Science and Engineering: A 813 (May 2021): 141174. http://dx.doi.org/10.1016/j.msea.2021.141174.

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48

Drennan, John, Viktor Zelizko, David Hay, Fabio T. Ciacchi, S. Rajendran, and Sukhvinder P. S. Badwal. "Characterisation, conductivity and mechanical properties of the oxygen-ion conductor La0.9Sr0.1Ga0.8 Mg0.2O3−x." Journal of Materials Chemistry 7, no. 1 (1997): 79–83. http://dx.doi.org/10.1039/a604563d.

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49

Zhao, LinLin, Chow Yee Lim, Chao Jiang, and Hong Liao. "Effect of Oxygen Plasma Surface Pretreatment on Silicon Based Dielectrics and Conductor Substrate." ECS Journal of Solid State Science and Technology 5, no. 9 (2016): P464—P467. http://dx.doi.org/10.1149/2.0051609jss.

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50

Tatenuma, K., T. Noguchi, K. Uchida, H. Saeki, A. Ando, and T. Momose. "Fundamental functions of a new type of leak detector using oxygen-ion conductor." Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films 18, no. 4 (July 2000): 1755–57. http://dx.doi.org/10.1116/1.582419.

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