Citations (112)
Keep up to date with the latest research on this topic with citation updates for this article.
Read on this site (2)
Fulan Zhong, Zhiyu Li, Yu Luo, Huihuang Fang, Kongfa Chen, Chen Zhou, Chongqi Chen, Li Lin & Lilong Jiang. (2022) Direct ammonia solid oxide fuel cells based on spinel ACo2O4 (A=Zn, Fe, Ni) composite cathodes at intermediate temperature. International Journal of Green Energy 19:15, pages 1623-1632.
Read now
Read now
Z-G Liu, J-H Ouyang, K-N Sun & Y Zhou. (2012) Influence of magnesia doping on structure and electrical conductivity of pyrochlore type GdSmZr2O7. Advances in Applied Ceramics 111:4, pages 214-219.
Read now
Read now
Articles from other publishers (110)
Wenjing Hu, Ping Zhang, Ling Zhao & Zetian Tao. (2023) Electrochemical performance enhancement of electrospun nanofiber cathode through impregnation method. International Journal of Hydrogen Energy 48:91, pages 35765-35770.
Crossref
Crossref
Abhijit Biswas, William Joshua Kennedy, Nicholas R. Glavin & Pulickel M. Ajayan. (2023) Epitaxial conducting ABO3 perovskite oxide thin films. Journal of Applied Physics 133:24, pages 240701.
Crossref
Crossref
Abdalla. M. Abdalla, Abul K. Azad, Mohamed M. K. Dawood & Juntakan Taweekun. (2023) Structural, Thermal, and Electrochemical Properties of Ce 0.8−2x Sm 0.2 Zrx Mgx O2−d, {x = 0.05, 0.1 & 0.15} Promising Electrolyte Compounds for (IT-SOFCs) Applications. Energies 16:13, pages 4923.
Crossref
Crossref
Artem P. Tarutin, Elena A. Filonova, Sandrine Ricote, Dmitry A. Medvedev & Zongping Shao. (2023) Chemical design of oxygen electrodes for solid oxide electrochemical cells: A guide. Sustainable Energy Technologies and Assessments 57, pages 103185.
Crossref
Crossref
Margarita Gabrovska, Dimitrinka Nikolova, Hristo Kolev, Daniela Karashanova, Peter Tzvetkov, Blagoy Burdin, Emiliya Mladenova, Daria Vladikova & Tatyana Tabakova. (2023) Environmentally Benign pSOFC for Emissions-Free Energy: Assessment of Nickel Network Resistance in Anodic Ni/BCY15 Nanocatalyst. Nanomaterials 13:11, pages 1781.
Crossref
Crossref
Qingjie Wang, Sandrine Ricote & Ming Chen. (2023) Oxygen electrodes for protonic ceramic cells. Electrochimica Acta 446, pages 142101.
Crossref
Crossref
Yongji Gao, Yang Yang, Xin Lin, Min Fu, Wenjing Hu, Hua Tong & Zetian Tao. (2022) Investigation and study of three different composite cathodes for proton-conducting solid oxide fuel cells. Separation and Purification Technology 300, pages 121890.
Crossref
Crossref
Hua Tong, Min Fu, Yang Yang, Fanglin Chen & Zetian Tao. (2022) A Novel Self‐Assembled Cobalt‐Free Perovskite Composite Cathode with Triple‐Conduction for Intermediate Proton‐Conducting Solid Oxide Fuel Cells. Advanced Functional Materials 32:48.
Crossref
Crossref
Idris Temitope Bello, Na Yu, Yufei Song, Jian Wang, Ting‐Shan Chan, Siyuan Zhao, Zheng Li, Yawen Dai, Jie Yu & Meng Ni. (2022) Electrokinetic Insights into the Triple Ionic and Electronic Conductivity of a Novel Nanocomposite Functional Material for Protonic Ceramic Fuel Cells. Small 18:40.
Crossref
Crossref
Yin Xu, Feng Hu, Youmin Guo, Jin Zhang, Yonglong Huang, Wei Zhou, Jian Sun, Beibei He & Ling Zhao. (2022) Probing oxygen reduction and water uptake kinetics of BaCo0.4Fe0.4Zr0.1Y0.1-xZnxO3-δ cathodes for protonic ceramic fuel cells. Separation and Purification Technology 297, pages 121482.
Crossref
Crossref
Min Fu, Kailin Li, Yang yang, Qiaoling Zeng, Long Zeng & Zetian Tao. (2022) Fabrication and study of LaNi0.6Fe0.4O3-δ and Sm0.5Sr0.5CoO3-δ composite cathode for proton-conducting solid oxide fuel cells. Separation and Purification Technology 287, pages 120581.
Crossref
Crossref
Idris Temitope Bello, Shuo Zhai, Qijiao He, Chun Cheng, Yawen Dai, Bin Chen, Yuan Zhang & Meng Ni. (2021) Materials development and prospective for protonic ceramic fuel cells. International Journal of Energy Research 46:3, pages 2212-2240.
Crossref
Crossref
Qingjie Wang, Sandrine Ricote, Yu Wang, Peter Vang Hendriksen, Jianqiang Wang & Ming Chen. (2022)
Ba
0.5
Gd
0.8
La
0.7
Co
2
O
6−δ
Infiltrated BaZr
0.8
Y
0.2
O
3−δ
Composite Oxygen Electrodes for Protonic Ceramic Cells
. Journal of The Electrochemical Society 169:1, pages 014513.
Crossref
Crossref
Zetian Tao, Min Fu, Yong Liu, Yongji Gao, Hua Tong, Wenjing Hu, Libin Lei & Lei Bi. (2022) High-performing proton-conducting solid oxide fuel cells with triple-conducting cathode of Pr0.5Ba0.5(Co0.7Fe0.3)O3-δ tailored with W. International Journal of Hydrogen Energy 47:3, pages 1947-1953.
Crossref
Crossref
Qingjie Wang, Xiaofeng Tong, Sandrine Ricote, Rokas Sažinas, Peter Vang Hendriksen & Ming Chen. (2022) Nano-LaCoO3 infiltrated BaZr0.8Y0.2O3− electrodes for steam splitting in protonic ceramic electrolysis cells. Advanced Powder Materials 1:1, pages 100003.
Crossref
Crossref
Miguel A. Laguna-Bercero. 2022. Reference Module in Earth Systems and Environmental Sciences. Reference Module in Earth Systems and Environmental Sciences.
Idris Temitope Bello, Shuo Zhai, Siyuan Zhao, Zheng Li, Na Yu & Meng Ni. (2021) Scientometric review of proton-conducting solid oxide fuel cells. International Journal of Hydrogen Energy 46:75, pages 37406-37428.
Crossref
Crossref
Laura I.V. Holz, Vanessa C.D. Graça, Francisco J.A. Loureiro & Duncan P. Fagg. 2021. Analytical Chemistry - Advancement, Perspectives and Applications. Analytical Chemistry - Advancement, Perspectives and Applications.
Yakun Wang, Kai Pei, Bote Zhao, Yun Zhao, Haobing Wang, Quan Niu & Yu Chen. (2021)
Enhanced Electrochemical Performance of a Ba
0.5
Sr
0.5
Co
0.7
Fe
0.2
Ni
0.1
O
3−δ
–BaZr
0.1
Ce
0.7
Y
0.1
Yb
0.1
O
3−δ
Composite Oxygen Electrode for Protonic Ceramic Electrochemical Cells
. Energy & Fuels 35:17, pages 14101-14109.
Crossref
Crossref
Nurul Afifah Mahmud, Lidyayatty Abdul Malik, Nurul Waheeda Mazlan, Nur Syafkeena Mohd Affandi, Shazana Mohd Senari, Nafisah Osman & Abdul Mutalib Md Jani. (2021) Processing of Y3+-doped Ba(Ce,Zr)O3 by using the sol–gel method assisted with functionalized activated carbon as a composite anode for proton ceramic fuel cells. Materials Research Bulletin 139, pages 111277.
Crossref
Crossref
Glenn C. Mather, Daniel Muñoz-Gil, Javier Zamudio-García, José M. Porras-Vázquez, David Marrero-López & Domingo Pérez-Coll. (2021) Perspectives on Cathodes for Protonic Ceramic Fuel Cells. Applied Sciences 11:12, pages 5363.
Crossref
Crossref
Hirofumi Sumi, Hiroyuki Shimada, Yuki Yamaguchi, Yasunobu Mizutani, Yuji Okuyama & Koji Amezawa. (2021) Comparison of electrochemical impedance spectra for electrolyte-supported solid oxide fuel cells (SOFCs) and protonic ceramic fuel cells (PCFCs). Scientific Reports 11:1.
Crossref
Crossref
Meagan Papac, Vladan Stevanović, Andriy Zakutayev & Ryan O’Hayre. (2020) Triple ionic–electronic conducting oxides for next-generation electrochemical devices. Nature Materials 20:3, pages 301-313.
Crossref
Crossref
Lidyayatty Abdul Malik, Nurul Afifah Mahmud, Nur Syafkeena Mohd Affandi, Nurul Waheeda Mazlan, Noor Hidayah Aniza Zakaria, Nurul Izzati Abd Malek, Oskar Hasdinor Hassan, Abdul Mutalib Md Jani & Nafisah Osman. (2021) Effect of nickel oxide - Modified BaCe0.54Zr0.36Y0.1O2.95 as composite anode on the performance of proton-conducting solid oxide fuel cell. International Journal of Hydrogen Energy 46:8, pages 5963-5974.
Crossref
Crossref
Wan Nor Anasuhah Wan Yusoff, Mahendra Rao Somalu, Nurul Akidah Baharuddin, Andanastuti Muchtar & Lai Jian Wei. (2020)
Enhanced performance of lithiated cathode materials of
LiCo
0
.
6
X
0
.
4
O
2
(X = Mn, Sr, Zn) for proton‐conducting solid oxide fuel cell applications
. International Journal of Energy Research 44:14, pages 11783-11793.
Crossref
Crossref
Liana R. Tarutina, Gennady K. Vdovin, Julia G. Lyagaeva & Dmitry A. Medvedev. (2020) BaCe0.7–xZr0.2Y0.1FexO3–δ derived from proton-conducting electrolytes: A way of designing chemically compatible cathodes for solid oxide fuel cells. Journal of Alloys and Compounds 831, pages 154895.
Crossref
Crossref
Sangho Park, Sewook Lee, Hyeonwoo Baek & Dongwook Shin. (2020) Cell performance enhancement facilitated by mixed ionic and electronic conductor fiber for protonic ceramic fuel cells. Journal of Electroceramics 45:1, pages 1-6.
Crossref
Crossref
N. A. Tarasova. (2020) Effect of fluorine doping on the ionic (O2−, H+) conductivity of oxygen-deficient complex oxides. Russian Chemical Bulletin 69:7, pages 1253-1263.
Crossref
Crossref
E. A. Filonova, E. S. Tokareva, N. S. Pikalova, A. I. Vylkov, N. M. Bogdanovich & E. Yu. Pikalova. (2020) Assessment of prospective cathodes based on (1-x)Ca3Co4O9+δ-xBaCe0.5Zr0.3Y0.1Yb0.1O3-δ composites for protonic ceramic electrochemical cells. Journal of Solid State Electrochemistry 24:7, pages 1509-1521.
Crossref
Crossref
Yingqin Yu, Lixiang Yu, Kang Shao, Yihang Li, Kristina Maliutina, Wenxiang Yuan, Qixing Wu & Liangdong Fan. (2020) BaZr0.1Co0.4Fe0.4Y0.1O3-SDC composite as quasi-symmetrical electrode for proton conducting solid oxide fuel cells. Ceramics International 46:8, pages 11811-11818.
Crossref
Crossref
Yushi Ding, Ying Li & Wenlong Huang. (2019) Influence of grain interior and grain boundaries on transport properties of scandium‐doped calcium zirconate. Journal of the American Ceramic Society 103:4, pages 2653-2662.
Crossref
Crossref
Małgorzata Widelicka, Paweł Ławniczak, Adam Pietraszko, Katarzyna Pogorzelec-Glaser & Andrzej Łapiński. (2020) Investigation of the thermal and conductive properties of oxalic acid salts with planar and undulating proton-conducting layers. CrystEngComm 22:11, pages 2031-2041.
Crossref
Crossref
Laura Rioja-Monllor, Carlos Bernuy-Lopez, Marie-Laure Fontaine, Tor Grande & Mari-Ann Einarsrud. (2019)
Microstructural and compositional optimization of La
0.5
Ba
0.5
CoO
3−δ
—BaZr
1−z
Y
z
O
3−δ
(z = 0, 0.05 and 0.1) nanocomposite cathodes for protonic ceramic fuel cells
. Journal of Physics: Energy 2:1, pages 015001.
Crossref
Crossref
Kawther Thabet, Annie Le Gal La Salle, Eric Quarez & Olivier Joubert. 2020. Solid Oxide-Based Electrochemical Devices. Solid Oxide-Based Electrochemical Devices
91
122
.
Laura Rioja-Monllor, Carlos Bernuy-Lopez, Marie-Laure Fontaine, Tor Grande & Mari-Ann Einarsrud. (2019) Compositional Engineering of a La1-xBaxCoO3-δ-(1-a) BaZr0.9Y0.1O2.95 (a = 0.6, 0.7, 0.8 and x = 0.5, 0.6, 0.7) Nanocomposite Cathodes for Protonic Ceramic Fuel Cells. Materials 12:20, pages 3441.
Crossref
Crossref
Francisco J.A. Loureiro, Narendar Nasani, G. Srinivas Reddy, N.R. Munirathnam & Duncan P. Fagg. (2019) A review on sintering technology of proton conducting BaCeO3-BaZrO3 perovskite oxide materials for Protonic Ceramic Fuel Cells. Journal of Power Sources 438, pages 226991.
Crossref
Crossref
Xi Xu, Huiqiang Wang, Marco Fronzi, Xianfen Wang, Lei Bi & Enrico Traversa. (2019) Tailoring cations in a perovskite cathode for proton-conducting solid oxide fuel cells with high performance. Journal of Materials Chemistry A 7:36, pages 20624-20632.
Crossref
Crossref
Junyu Chen, Jin Li, Lichao Jia, Ibrahim Moussa, Bo Chi, Jian Pu & Jian Li. (2019) A novel layered perovskite Nd(Ba0.4Sr0.4Ca0.2)Co1.6Fe0.4O5+δ as cathode for proton-conducting solid oxide fuel cells. Journal of Power Sources 428, pages 13-19.
Crossref
Crossref
Wenyuan Li, Bo Guan, Liang Ma, Hanchen Tian & Xingbo Liu. (2019)
Synergistic Coupling of Proton Conductors BaZr
0.1
Ce
0.7
Y
0.1
Yb
0.1
O
3−δ
and La
2
Ce
2
O
7
to Create Chemical Stable, Interface Active Electrolyte for Steam Electrolysis Cells
. ACS Applied Materials & Interfaces 11:20, pages 18323-18330.
Crossref
Crossref
Francisco J.A. Loureiro, Daniel A. Macedo, Rubens M. Nascimento, Moisés R. Cesário, João P.F. Grilo, Aleksey A. Yaremchenko & Duncan P. Fagg. (2019) Cathodic polarisation of composite LSCF-SDC IT-SOFC electrode synthesised by one-step microwave self-assisted combustion. Journal of the European Ceramic Society 39:5, pages 1846-1853.
Crossref
Crossref
М. S. Plekhanov, А. S. Lesnichyova, А. Yu. Stroeva, М. V. Ananyev, А. S. Farlenkov, N. М. Bogdanovich, S. A. Belyakov & А. V. Kuzmin. (2019) Novel Ni cermets for anode-supported proton ceramic fuel cells. Journal of Solid State Electrochemistry 23:5, pages 1389-1398.
Crossref
Crossref
Muhammad Saqib, John-In Lee, Ji-Seop Shin, Kwangho Park, You-Dong Kim, Ki Buem Kim, Jung Hyun Kim, Hyung-Tae Lim & Jun-Young Park. (2019)
Modification of Oxygen-Ionic Transport Barrier of BaCo
0.4
Zr
0.1
Fe
0.4
Y
0.1
O
3
Steam (Air) Electrode by Impregnating Samarium-Doped Ceria Nanoparticles for Proton-Conducting Reversible Solid Oxide Cells
. Journal of The Electrochemical Society 166:12, pages F746-F754.
Crossref
Crossref
Fengpeng Li, Zetian Tao, Hailu Dai, Xinguo Xi & Hanping Ding. (2018) A high-performing proton-conducting solid oxide fuel cell with layered perovskite cathode in intermediate temperatures. International Journal of Hydrogen Energy 43:42, pages 19757-19762.
Crossref
Crossref
Lei Bi, Shahid P. Shafi, Eman Husni Da'as & Enrico Traversa. (2018) Tailoring the Cathode–Electrolyte Interface with Nanoparticles for Boosting the Solid Oxide Fuel Cell Performance of Chemically Stable Proton‐Conducting Electrolytes. Small 14:32.
Crossref
Crossref
Libin Lei, Zetian Tao, Tao Hong, Xiaoming Wang & Fanglin Chen. (2018) A highly active hybrid catalyst modified (La0.60Sr0.40)0.95Co0.20Fe0.80O3-δ cathode for proton conducting solid oxide fuel cells. Journal of Power Sources 389, pages 1-7.
Crossref
Crossref
Zhenbao Zhang, Jian Wang, Yubo Chen, Shaozao Tan, Zongping Shao & Dengjie Chen. (2018) In situ formation of a 3D core-shell and triple-conducting oxygen reduction reaction electrode for proton-conducting SOFCs. Journal of Power Sources 385, pages 76-83.
Crossref
Crossref
Isaac Bredeson, Lipeng Zhang, P. R. C. Kent, Valentino R. Cooper & Haixuan Xu. (2018) Dimensional control of defect dynamics in perovskite oxide superlattices. Physical Review Materials 2:3.
Crossref
Crossref
Mi Young Park, Kwon Deok Seo, Jun-Young Park & Hyung-Tae Lim. (2018) Durability tests of BCY-BZY electrolyte fuel cells under severe operating conditions. Journal of Alloys and Compounds 735, pages 2341-2347.
Crossref
Crossref
Ankang Zhu, Guilin Zhang, Tingting Wan, Tingting Shi, Hong Wang, Mingzai Wu, Chunchang Wang, Shouguo Huang, Youmin Guo, Hao Yu & Zongping Shao. (2018) Evaluation of SrSc0.175Nb0.025Co0.8O3-δ perovskite as a cathode for proton-conducting solid oxide fuel cells: The possibility of in situ creating protonic conductivity and electrochemical performance. Electrochimica Acta 259, pages 559-565.
Crossref
Crossref
Eman Husni Daʹas, Lei Bi, Samir Boulfrad & Enrico Traversa. (2017) Nanostructuring the electronic conducting La0.8Sr0.2MnO3−δ cathode for high-performance in proton-conducting solid oxide fuel cells below 600°C通过电子导体阴极La0.8Sr0.2MnO3−δ的纳米化制备高性能质子导体固体氧化物燃料电池. Science China Materials 61:1, pages 57-64.
Crossref
Crossref
Alexander Benes, Alan Molinari, Ralf Witte, Robert Kruk, Joachim Brötz, Reda Chellali, Horst Hahn & Oliver Clemens. (2017) Proton Conduction in Grain-Boundary-Free Oxygen-Deficient BaFeO2.5+δ Thin Films. Materials 11:1, pages 52.
Crossref
Crossref
Shahzad Hossain, Abdalla M. Abdalla, Juliana H. Zaini, Cristian D. Savaniu, John T.S. Irvine & Abul K. Azad. (2017) Highly dense and novel proton conducting materials for SOFC electrolyte. International Journal of Hydrogen Energy 42:44, pages 27308-27322.
Crossref
Crossref
Wei He, Rong-hua Yuan, Fei-fei Dong, Xue-lian Wu & Meng Ni. (2017) High performance of protonic solid oxide fuel cell with BaCo0.7Fe0.22Sc0.08O3−δ electrode. International Journal of Hydrogen Energy 42:39, pages 25021-25025.
Crossref
Crossref
Philippe Vernoux. 2017. Nanotechnology in Catalysis. Nanotechnology in Catalysis
939
960
.
M. Naeem Khan, C.D. Savaniu, A.K. Azad, Peter Hing & J.T.S. Irvine. (2017) Wet chemical synthesis and characterisation of Ba 0.5 Sr 0.5 Ce 0.6 Zr 0.2 Gd 0.1 Y 0.1 O 3?? proton conductor. Solid State Ionics 303, pages 52-57.
Crossref
Crossref
Parvathy Anitha Sukkurji, Alan Molinari, Alexander Benes, Christoph Loho, Venkata Sai Kiran Chakravadhanula, Suresh Kumar Garlapati, Robert Kruk & Oliver Clemens. (2017)
Structure and conductivity of epitaxial thin films of barium ferrite and its hydrated form BaFeO
2.5−
x
+
δ
(OH)
2
x
. Journal of Physics D: Applied Physics 50:11, pages 115302.
Crossref
Crossref
L. A. Dunyushkina, A. V. Kuz?min, V. M. Kuimov, A. Sh. Khaliullina, M. S. Plekhanov & N. M. Bogdanovich. (2017) Electrode materials for solid oxide fuel cells with proton-conducting electrolyte based on CaZrO3. Russian Journal of Electrochemistry 53:2, pages 196-204.
Crossref
Crossref
Shichen Sun & Zhe Cheng. (2016)
Effects of H
2
O and CO
2
on Electrochemical Behaviors of BSCF Cathode for Proton Conducting IT-SOFC
. Journal of The Electrochemical Society 164:2, pages F81-F88.
Crossref
Crossref
Ismariza Ismail, Abdul Mutalib Md Jani & Nafisah Osman. Microstructure control of SOFC cathode material: The role of dispersing agent. Microstructure control of SOFC cathode material: The role of dispersing agent.
Libin Lei, Zetian Tao, Xiaoming Wang, John P. Lemmon & Fanglin Chen. (2017) Intermediate-temperature solid oxide electrolysis cells with thin proton-conducting electrolyte and a robust air electrode. Journal of Materials Chemistry A 5:44, pages 22945-22951.
Crossref
Crossref
Junkai Wang, Jun Zhou, Tao Wang, Gang Chen, Kai Wu & Yonghong Cheng. (2016) Decreasing the polarization resistance of LaSrCoO4 cathode by Fe substitution for Ba(Zr0.1Ce0.7Y0.2)O3 based protonic ceramic fuel cells. Journal of Alloys and Compounds 689, pages 581-586.
Crossref
Crossref
Guangjun Wang, Xiangying Wu, Yixiao Cai, Yuan Ji, Azra Yaqub & Bin Zhu. (2016) Design, fabrication and characterization of a double layer solid oxide fuel cell (DLFC). Journal of Power Sources 332, pages 8-15.
Crossref
Crossref
Artur Braun. 2016. Structural Characterization Techniques. Structural Characterization Techniques
1
58
.
Gilles Taillades, Paul Pers, Visot Mao & Mélanie Taillades. (2016) High performance anode-supported proton ceramic fuel cell elaborated by wet powder spraying. International Journal of Hydrogen Energy 41:28, pages 12330-12336.
Crossref
Crossref
Sushil Kumar Kuanr & Suresh Babu K. (2016) Structural and growth aspects of electron beam physical vapor deposited NiO-CeO2 nanocomposite films. Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films 34:2.
Crossref
Crossref
Liangdong Fan & Pei-Chen Su. (2016) Layer-structured LiNi0.8Co0.2O2: A new triple (H+/O2−/e−) conducting cathode for low temperature proton conducting solid oxide fuel cells. Journal of Power Sources 306, pages 369-377.
Crossref
Crossref
Ragnar Strandbakke, Oddvar Dyrlie, Fredrik Sydow Hage & Truls Norby. (2016) Reaction Kinetics of Protons and Oxide Ions in LSM/Lanthanum Tungstate Cathodes with Pt Nanoparticle Activation. Journal of The Electrochemical Society 163:6, pages F507-F515.
Crossref
Crossref
N. Kochetova, I. Animitsa, D. Medvedev, A. Demin & P. Tsiakaras. (2016) Recent activity in the development of proton-conducting oxides for high-temperature applications. RSC Advances 6:77, pages 73222-73268.
Crossref
Crossref
Muhammad Afzal, Chen Xia & Bin Zhu. (2016) Lanthanum-doped Calcium Manganite (La0.1Ca0.9MnO3) Cathode for Advanced Solid Oxide Fuel Cell (SOFC). Materials Today: Proceedings 3:8, pages 2698-2706.
Crossref
Crossref
Tetsuro Kariya, Hiroki Tanaka, Tomoki Hirono, Tetsuji Kuse, Katsu Yanagimoto, Kiyoshi Uchiyama, Mitsunori Henmi, Mitsutaka Hirose, Isao Kimura, Koukou Suu & Hiroshi Funakubo. (2016) Development of a novel cell structure for low-temperature SOFC using porous stainless steel support combined with hydrogen permeable Pd layer and thin film proton conductor. Journal of Alloys and Compounds 654, pages 171-175.
Crossref
Crossref
Zongping Shao & Moses O. Tad?Zongping Shao & Moses O. Tad?. 2016. Intermediate-Temperature Solid Oxide Fuel Cells. Intermediate-Temperature Solid Oxide Fuel Cells
1
13
.
Lei Bi, Samir Boulfrad & Enrico Traversa. (2015) Reversible solid oxide fuel cells (R-SOFCs) with chemically stable proton-conducting oxides. Solid State Ionics 275, pages 101-105.
Crossref
Crossref
Chunyang Yang, Xinxin Zhang, Hailei Zhao, Yongna Shen, Zhihong Du & Cuijuan Zhang. (2015) Electrochemical properties of BaZr0.1Ce0.7Y0.1Yb0.1O3 − δ-Nd1.95NiO4 + δ composite cathode for protonic ceramic fuel cells. International Journal of Hydrogen Energy 40:6, pages 2800-2807.
Crossref
Crossref
Narendar Nasani, Devaraj Ramasamy, Isabel Antunes, Jose Perez & Duncan P. Fagg. (2015) Electrochemical behaviour of Ni-BZO and Ni-BZY cermet anodes for Protonic Ceramic Fuel Cells (PCFCs) – A comparative study. Electrochimica Acta 154, pages 387-396.
Crossref
Crossref
Shahid P. Shafi, Lei Bi, Samir Boulfrad & Enrico Traversa. (2015)
Y and Ni Co-Doped BaZrO
3
as a Proton-Conducting Solid Oxide Fuel Cell Electrolyte Exhibiting Superior Power Performance
. Journal of The Electrochemical Society 162:14, pages F1498-F1503.
Crossref
Crossref
Meng Li, Bin Hua, Jing-li Luo, San Ping Jiang, Jian Pu, Bo Chi & Li Jian. (2015) Carbon-tolerant Ni-based cermet anodes modified by proton conducting yttrium- and ytterbium-doped barium cerates for direct methane solid oxide fuel cells. Journal of Materials Chemistry A 3:43, pages 21609-21617.
Crossref
Crossref
Lei Yao, Wei Liu, Gang Ou, Hiroki Nishijima & Wei Pan. (2015) Phase stability and high conductivity of ScSZ nanofibers: effect of the crystallite size. Journal of Materials Chemistry A 3:20, pages 10795-10800.
Crossref
Crossref
Candace K. Chan, Harun Tüysüz, Artur Braun, Chinmoy Ranjan, Fabio La Mantia, Benjamin K. Miller, Liuxian Zhang, Peter A. Crozier, Joel A. Haber, John M. Gregoire, Hyun S. Park, Adam S. Batchellor, Lena Trotochaud & Shannon W. Boettcher. 2016. Solar Energy for Fuels. Solar Energy for Fuels
253
324
.
Xiaowei Chi, Zhaoyin Wen, Jingchao Zhang & Yu Liu. (2014) Enhanced conductivity of lanthanum niobate proton conductor by A and B-site co-doping: Synthesis, phase, microstructure and transport properties. Solid State Ionics 268, pages 326-329.
Crossref
Crossref
Narendar Nasani, Devaraj Ramasamy, Ana D. Brandão, Aleksey A. Yaremchenko & Duncan P. Fagg. (2014) The impact of porosity, pH 2 and pH 2 O on the polarisation resistance of Ni–BaZr 0.85 Y 0.15 O 3−δ cermet anodes for Protonic Ceramic Fuel Cells (PCFCs). International Journal of Hydrogen Energy 39:36, pages 21231-21241.
Crossref
Crossref
Narendar Nasani, Zhu-Jun Wang, Marc G. Willinger, Aleksey A. Yaremchenko & Duncan P. Fagg. (2014) In-situ redox cycling behaviour of Ni–BaZr0.85Y0.15O3−δ cermet anodes for Protonic Ceramic Fuel Cells. International Journal of Hydrogen Energy 39:34, pages 19780-19788.
Crossref
Crossref
P. Batocchi, F. Mauvy, S. Fourcade & M. Parco. (2014) Electrical and electrochemical properties of architectured electrodes based on perovskite and A2MO4-type oxides for Protonic Ceramic Fuel Cell. Electrochimica Acta 145, pages 1-10.
Crossref
Crossref
Sang-Hyun Song, Sung-Eun Yoon, Jaewon Choi, Byung-Kook Kim & Jong-Sung Park. (2014) A high-performance ceramic composite anode for protonic ceramic fuel cells based on lanthanum strontium vanadate. International Journal of Hydrogen Energy 39:29, pages 16534-16540.
Crossref
Crossref
Sri Parasara Radhika, Kalarical Janardhanan Sreeram & Balachandran Unni Nair. (2014) Mo-Doped Cerium Gadolinium Oxide as Environmentally Sustainable Yellow Pigments. ACS Sustainable Chemistry & Engineering 2:5, pages 1251-1256.
Crossref
Crossref
Ang?lique Jarry, Eric Quarez & Olivier Joubert. (2014) Tailoring conductivity properties of chemically stable BaIn1?x?yTixZryO2.5+(x+y)/2?n(OH)2n electrolytes for proton conducting fuel cells. Solid State Ionics 256, pages 76-82.
Crossref
Crossref
D. Medvedev, A. Murashkina, E. Pikalova, A. Demin, A. Podias & P. Tsiakaras. (2014) BaCeO3: Materials development, properties and application. Progress in Materials Science 60, pages 72-129.
Crossref
Crossref
Lei Bi & Enrico Traversa. (2013)
Synthesis strategies for improving the performance of doped-BaZrO
3
materials in solid oxide fuel cell applications
. Journal of Materials Research 29:1, pages 1-15.
Crossref
Crossref
Alberto Lapina, Christodoulos Chatzichristodoulou, Peter Holtappels & Mogens Mogensen. (2014)
Composite Fe – BaCe
0.2
Zr
0.6
Y
0.2
O
2.9
Anodes for Proton Conductor Fuel Cells
. Journal of The Electrochemical Society 161:9, pages F833-F837.
Crossref
Crossref
Shumin Fang, Siwei Wang, Kyle S. Brinkman & Fanglin Chen. (2014) A sinteractive Ni–BaZr0.8Y0.2O3−δ composite membrane for hydrogen separation. Journal of Materials Chemistry A 2:16, pages 5825.
Crossref
Crossref
Li-Yong Gan, Salawu Omotayo Akande & Udo Schwingenschlögl. (2014)
Anisotropic O vacancy formation and diffusion in LaMnO
3
. J. Mater. Chem. A 2:46, pages 19733-19737.
Crossref
Crossref
Zhan-Guo Liu, Jia-Hu Ouyang & Yu Zhou. (2013) Sintering and electrical conductivity of the GdSmZr 2 O 7 ceramic with and without ZnO sintering aid. Journal of Power Sources 243, pages 836-840.
Crossref
Crossref
Ho-Il Ji, Sung-Min Choi, Kyung Joong Yoon, Ji-Won Son, Byung-Kook Kim, Hae-Weon Lee & Jong-Ho Lee. (2013) Influence of wet atmosphere on electrical and transport properties of lanthanum strontium cobalt ferrite cathode materials for protonic ceramic fuel cells. Solid State Ionics 249-250, pages 112-116.
Crossref
Crossref
Cuijuan Zhang, Zhihong Du, Hailei Zhao & Xinxin Zhang. (2013) Modification of electrocatalytic activity of BaCe0.40Sm0.20Fe0.40O3−δ with Co3O4 as cathode for proton-conducting solid oxide fuel cell. Electrochimica Acta 108, pages 369-375.
Crossref
Crossref
Narendar Nasani, Paulo A.N. Dias, Jorge A. Saraiva & Duncan P. Fagg. (2013) Synthesis and conductivity of Ba(Ce,Zr,Y)O3−δ electrolytes for PCFCs by new nitrate-free combustion method. International Journal of Hydrogen Energy 38:20, pages 8461-8470.
Crossref
Crossref
Nasani Narendar, Glenn C. Mather, Paulo A. N. Dias & Duncan P. Fagg. (2013)
The importance of phase purity in Ni?BaZr
0.85
Y
0.15
O
3??
cermet anodes ? novel nitrate-free combustion route and electrochemical study
. RSC Adv. 3:3, pages 859-869.
Crossref
Crossref
Ben H. Rainwater, Mingfei Liu & Meilin Liu. (2012) A more efficient anode microstructure for SOFCs based on proton conductors. International Journal of Hydrogen Energy 37:23, pages 18342-18348.
Crossref
Crossref
Yu Liu, Youmin Guo, Ran Ran & Zongping Shao. (2012) A new neodymium-doped BaZr0.8Y0.2O3?? as potential electrolyte for proton-conducting solid oxide fuel cells. Journal of Membrane Science 415-416, pages 391-398.
Crossref
Crossref
Lei Bi, Emiliana Fabbri & Enrico Traversa. (2012) Novel Ba0.5Sr0.5(Co0.8Fe0.2)1?xTixO3?? (x=0, 0.05, and 0.1) cathode materials for proton-conducting solid oxide fuel cells. Solid State Ionics 214, pages 1-5.
Crossref
Crossref
Ziqi Sun, Emiliana Fabbri, Lei Bi & Enrico Traversa. (2011) Electrochemical Properties and Intermediate‐Temperature Fuel Cell Performance of Dense Yttrium‐Doped Barium Zirconate with Calcium Addition. Journal of the American Ceramic Society 95:2, pages 627-635.
Crossref
Crossref
Jian-Hui Li, Xian-Zhu Fu, Jing-Li Luo, Karl T. Chuang & Alan R. Sanger. (2012) Evaluation of molybdenum carbide as anode catalyst for proton-conducting hydrogen and ethane solid oxide fuel cells. Electrochemistry Communications 15:1, pages 81-84.
Crossref
Crossref
Emiliana Fabbri, Lei Bi, Daniele Pergolesi & Enrico Traversa. (2011) Towards the Next Generation of Solid Oxide Fuel Cells Operating Below 600 °C with Chemically Stable Proton‐Conducting Electrolytes. Advanced Materials 24:2, pages 195-208.
Crossref
Crossref
E. Traversa & E. Fabbri. 2012. Functional Materials for Sustainable Energy Applications. Functional Materials for Sustainable Energy Applications
515
537
.
Emiliana Fabbri, Isaac Markus, Lei Bi, Daniele Pergolesi & Enrico Traversa. (2011) Tailoring mixed proton-electronic conductivity of BaZrO3 by Y and Pr co-doping for cathode application in protonic SOFCs. Solid State Ionics 202:1, pages 30-35.
Crossref
Crossref
Jian-Hui Li, Xian-Zhu Fu, Gui-Hua Zhou, Jing-Li Luo, Karl T. Chuang & Alan R. Sanger. (2011) Nanoparticles as Anode Catalyst for Ethane Proton Conducting Fuel Cell Reactors to Coproduce Ethylene and Electricity. Advances in Physical Chemistry 2011, pages 1-6.
Crossref
Crossref
Lei Bi, Emiliana Fabbri, Ziqi Sun & Enrico Traversa. (2011) Sinteractivity, proton conductivity and chemical stability of BaZr0.7In0.3O3-? for solid oxide fuel cells (SOFCs). Solid State Ionics 196:1, pages 59-64.
Crossref
Crossref
V. Hugo Schmidt & Chih-Long Tsai. (2011) Protonic and Electronic Conduction in Proton Conductive Solid Oxide Fuel Cells. MRS Proceedings 1330.
Crossref
Crossref
Lei Bi, Emiliana Fabbri, Ziqi Sun & Enrico Traversa. (2011) BaZr0.8Y0.2O3??-NiO Composite Anodic Powders for Proton-Conducting SOFCs Prepared by a Combustion Method. Journal of The Electrochemical Society 158:7, pages B797.
Crossref
Crossref
Emiliana Fabbri, Lei Bi, Daniele Pergolesi & Enrico Traversa. (2011) High-performance composite cathodes with tailored mixed conductivity for intermediate temperature solid oxide fuel cells using proton conducting electrolytes. Energy & Environmental Science 4:12, pages 4984.
Crossref
Crossref
Lei Bi, Emiliana Fabbri, Ziqi Sun & Enrico Traversa. (2011) Sinteractive anodic powders improve densification and electrochemical properties of BaZr0.8Y0.2O3?? electrolyte films for anode-supported solid oxide fuel cells. Energy & Environmental Science 4:4, pages 1352.
Crossref
Crossref
Ziqi Sun, Emiliana Fabbri, Lei Bi & Enrico Traversa. (2011)
Lowering grain boundary resistance of BaZr
0.8
Y
0.2
O
3??
with LiNO
3
sintering-aid improves proton conductivity for fuel cell operation
. Phys. Chem. Chem. Phys. 13:17, pages 7692-7700.
Crossref
Crossref