Results 221 to 230 of about 117,035 (336)

Preparation and characterization of solid electrolytes for solid oxide fuel cells. Quarterly report, January 1, 1997--June 30, 1997

, 1997
B. Rambabu
openalex   +1 more source

Facet‐Controlled Growth of Molybdenum Phosphide Single Crystals for Efficient Hydrogen Peroxide Synthesis

Advanced Materials, EarlyView.
Facet‐controlled growth of molybdenum phosphide single crystals via liquid‐metal‐assisted chemical vapor deposition, demonstrating MoP nanoplate and pillar morphologies formed at different temperatures for efficient hydrogen peroxide synthesis. Abstract Transition metal phosphides (TMPs) stand out for their excellent catalytic activity, driven by metal‒
Seo Hyun Kim, Jeong‐Hyun Kim, Bogeun Park, Hanhwi Jang, Jeong‐Gyu Lee, Soonmin Yim, Jae Won Jeong, Seyoung Koo, Yeon Sik Jung, Byung‐Hyun Kim, Min‐Jae Choi, Hyeuk Jin Han   +11 more
wiley   +1 more source

The Preparation and Properties of Ti(Nb)-Si-C Coating on the Pre-Oxidized Ferritic Stainless Steel for Solid Oxide Fuel Cell Interconnect. [PDF]

Materials (Basel)
Li X, Chi Y, Wei S, Sun X, Zhao J, Hou Q, Fu K, Dai Z, Zheng L.   +8 more
europepmc   +1 more source

Characterization of iron-based alloy interconnects for reduced temperature solid oxide fuel cells

, 2000
Kevin Huang, Peggy Y. Hou, John B. Goodenough   +2 more
openalex   +1 more source

A thermodynamic comparison of solid oxide fuel cell-combined cycles

Journal of Power Sources, 2018
L. V. Biert, T. Woudstra, M. Godjevac, K. Visser, P. Aravind   +4 more
semanticscholar   +1 more source

Water Oxidation to Hydrogen Peroxide Over a Super‐Aerophilic Graphite Catalyst

Advanced Materials, EarlyView.
Design of super‐aerophilic graphite catalyst capable of trapping in situ produced oxygen gas on its surface under the electrolyte environment. By so doing, it is able to moderate intermediate species binding, which is critical to enabling the two‐electron water oxidation reaction to hydrogen peroxide.
Umer Javed, Mike Tebyetekerwa, Cheng Tang, Xiangkang Zeng, Zhuyuan Wang, Kaige Sun, Jindi Yang, Ifra Marriam, Lijun Guo, Xin Sun, Aloka Kumar Sahu, Yanzhao Zhang, Arash Zamyadi, Aijun Du, Qin Li, Thomas E. Rufford, Xiwang Zhang   +16 more
wiley   +1 more source

Modification of B-site substituted by high-valence Nb in PrBa_0.5Sr_0.5Co_1.5Fe_0.5O_5+<i>δ</i> as a highly active air electrode for solid oxide fuel cell. [PDF]

RSC Adv
Guo Q, Li S, An S, Sun R, Ren M, Gao L, Yan Z, Cao H.   +7 more
europepmc   +1 more source

Perovskite Oxides for the Cathode in Solid Oxide Fuel Cells

, 2000
Yasuo Takeda, Yoshinori Sakaki, Heng Tu, M. B. Phillipps, Nobuyuki Imanishi, Osamu Yamamoto   +5 more
openalex   +2 more sources

High‐Energy‐Density Aqueous Zinc‐Ion Batteries: Recent Progress, Design Strategies, Challenges, and Perspectives

Advanced Materials, EarlyView.
Strategies achieving high‐energy‐density aqueous zinc‐ion batteries are summarized and analyzed from both their separate advancements and the integrated effectiveness in this review. Then, perspectives are given for valuable guidance for further development of high‐energy‐density aqueous zinc‐ion batteries.
Mingcong Tang, Qun Liu, Xiaohong Zou, Biao Zhang, Liang An   +4 more
wiley   +1 more source

An Anisotropic Microstructure Evolution in a Solid Oxide Fuel Cell Anode. [PDF]

Nanoscale Res Lett, 2020
Brus G, Iwai H, Szmyd JS.
europepmc   +1 more source