Recent advances in material and performance aspects of solid oxide fuel cells
Abstract Solid Oxide Fuel Cells (SOFCs) are emerging as potential energy conversion
devices owing to their high efficiencies and less greenhouse gas emissions. Though there …
devices owing to their high efficiencies and less greenhouse gas emissions. Though there …
Review of cell performance in solid oxide fuel cells
Y Lyu, J Xie, D Wang, J Wang - Journal of Materials Science, 2020 - Springer
The solid oxide fuel cells (SOFCs) are promising electrochemical conversion devices and
have been studied for several decades. While numerous achievements have been obtained …
have been studied for several decades. While numerous achievements have been obtained …
Solid oxide fuel cell technology for sustainable development in China: An over-view
Y Lu, Y Cai, L Souamy, X Song, L Zhang… - international journal of …, 2018 - Elsevier
Fuel cell technology motivates a variety of benefits, which are barely offered by other energy
technologies. The fuel cell can be obtained through natural resources—biomass, coal and …
technologies. The fuel cell can be obtained through natural resources—biomass, coal and …
Multifunctional applications of gadolinium-doped cerium oxide (Ce1–xGdxO2–∂) ceramics: A review
S Das, R Bhaskar, KB Narayanan - Journal of Rare Earths, 2024 - Elsevier
Abstract Cerium oxide (CeO 2), or ceria, and its doped derivatives have been extensively
studied for several decades and are well-known oxides valued for their unique structural …
studied for several decades and are well-known oxides valued for their unique structural …
Synthesis and characterization of M-doped ceria-ternary carbonate composite electrolytes (M= erbium, lanthanum and strontium) for low-temperature solid oxide fuel …
Three different series of doped ceria-based composite electrolyte consisting of M-doped
ceria (M= Ce 0.85 Er 0.15 O 2-δ (ErDC), Ce 0.85 La 0.15 O 2-δ (LaDC) and Ce 0.95 Sr 0.05 …
ceria (M= Ce 0.85 Er 0.15 O 2-δ (ErDC), Ce 0.85 La 0.15 O 2-δ (LaDC) and Ce 0.95 Sr 0.05 …
Triple-doped Ceria–Carbonate (Ce0. 82La0. 06Sm0. 06Gd0. 06O2-δ–(Li–Na) 2CO3) nanocomposite solid electrolyte materials for LT–SOFC applications
K Venkataramana, C Madhuri, CV Reddy - Ceramics International, 2020 - Elsevier
Abstract The Ce 0.82 La 0.06 Sm 0.06 Gd 0.06 O 2-δ triple-doped ceria (LSG) and triple-
doped ceria–carbonate nanocomposites (Ce 0.82 La 0.06 Sm 0.06 Gd 0.06 O 2-δ–(Li–Na) 2 …
doped ceria–carbonate nanocomposites (Ce 0.82 La 0.06 Sm 0.06 Gd 0.06 O 2-δ–(Li–Na) 2 …
One step densification of SDC—Na2CO3 nano‐composite electrolytes for SOFC applications by cold sintering process
M Murutoglu, AA Gultekin, B Gunhan… - Journal of the …, 2023 - Wiley Online Library
Abstract Sm0. 2Ce0. 8O1. 9‐30% Na2CO3 (Sm doped ceria (SDC)‐30N) nano‐composite
electrolytes were densified in a single step via cold sintering process (CSP). At 200° C and …
electrolytes were densified in a single step via cold sintering process (CSP). At 200° C and …
Development of melt infiltrated gadolinium doped ceria-carbonate composite electrolytes for intermediate temperature solid oxide fuel cells
Composite electrolyte of gadolinium doped ceria and lithium sodium carbonate ((LiNa) 2 CO
3-GDC) showing enhanced stability and mechanical strength has been fabricated using melt …
3-GDC) showing enhanced stability and mechanical strength has been fabricated using melt …
A comprehensive review on ceria based materials for environmental-related applications
This contribution provides a comprehensive overview on the use of cerium oxide (CeO 2) in
various fields including biomedical, water treatment, fuel cells and photocatalytic …
various fields including biomedical, water treatment, fuel cells and photocatalytic …
A comprehensive review of Cr, Ti-based anode materials for Li-ion batteries
X Gui, G Hao, W Jiang - Ionics, 2020 - Springer
The anode material plays a crucial role in the reliability and safety of Li-ion batteries. Among
various of anode materials, Cr, Ti-based anode materials, including LiCrTiO 4, Li 5 Cr 9 Ti 4 …
various of anode materials, Cr, Ti-based anode materials, including LiCrTiO 4, Li 5 Cr 9 Ti 4 …