Publication: Characteristic and challenges of scandia stabilized zirconia as solid oxide fuel cell material � In depth review
Date
2023
Authors
Arifin N.A.
Afifi A.A.
Samreen A.
Hafriz R.S.R.M.
Muchtar A.
Journal Title
Journal ISSN
Volume Title
Publisher
Elsevier B.V.
Abstract
Scandia-stabilized zirconia (ScSZ) has 1.5�3 times superior conductivity owing to its crystal structure as compared to yttria stabilized zirconia (YSZ). However, also due to this, ScSZ experienced phase structure transition which affects its stability when used as an SOFC electrolyte material and as anode. The typically ceria-doped 10 mol%ScSZ (10Sc1CeSZ) experienced Ce4+ ? Ce3+ transition in reduced environment led to lower fracture strength and instability. Alternative promising co-dopants to stabilized ScSZ phase, such as Nd, Sm and Gd are identified as a way forward in using ScSZ in reduced SOFC environment. The high affinity of the ScSZ oxide to Ni causes the dissolution of Ni in ScSZ grains and vice versa, thereby affecting the conductivity and material connectivity at the anode. The tolerance of Ni-ScSZ to hydrocarbon fuel and sulfur is significantly higher than that of Ni-YSZ and exhibited different behavior on carbon growth
graphitic carbon growth on Ni-ScSZ, and amorphous carbon on Ni-YSZ. The differences reflect the superior methane cracking catalytic ability of Ni-ScSZ and the effect of the crystal structure on the type of carbon formed. Doping is a suitable solution to enhance the reforming activity of the cell as well and resolve the Ni-ScSZ anode degradation issue. � 2023 Elsevier B.V.
graphitic carbon growth on Ni-ScSZ, and amorphous carbon on Ni-YSZ. The differences reflect the superior methane cracking catalytic ability of Ni-ScSZ and the effect of the crystal structure on the type of carbon formed. Doping is a suitable solution to enhance the reforming activity of the cell as well and resolve the Ni-ScSZ anode degradation issue. � 2023 Elsevier B.V.
Description
Keywords
Degradation , Hydrocarbon fuel SOFC , Phase stability , Scandia stabilized zirconia , Solid oxide fuel cell , Anodes , Cerium oxide , Crystal structure , Fracture toughness , Hydrocarbons , Nickel , Yttria stabilized zirconia , Carbon growth , Crystals structures , Fuel cell materials , Hydrocarbon fuel , Hydrocarbon fuel SOFC , Scandia stabilized zirconia , SOFC electrolyte , Solid-oxide fuel cell , Structure transitions , Yttria-stabilized-zirconia , Solid oxide fuel cells (SOFC)