Computational approaches to the exsolution phenomenon in perovskite oxides with a view to design highly durable and active anodes for solid oxide fuel cells

In Situ Investigation of Reversible Exsolution/Dissolution of CoFe Alloy Nanoparticles in a Co‐Doped Sr 2 Fe 1.5 Mo 0.5 O 6− δ Cathode for CO 2 Electrolysis

(2020) Houfu Lv et al.   ADVANCED MATERIALS

Catalytic decomposition of N2O on Pd Cu alloy catalysts: A density functional theory study

(2020) Kyeounghak Kim et al.   APPLIED SURFACE SCIENCE

A Highly Active and Redox-Stable SrGdNi0.2Mn0.8O4±δ Anode with in Situ Exsolution of Nanocatalysts

(2019) Kyeong Joon Kim et al.   ACS Catalysis

Cation-swapped homogeneous nanoparticles in perovskite oxides for high power density

(2019) Sangwook Joo et al.   Nature Communications

Growth Kinetics of Individual Co Particles Ex-solved on SrTi0.75Co0.25O3-δ Polycrystalline Perovskite Thin Films

(2019) Yong-Ryun Jo et al.   JOURNAL OF THE AMERICAN CHEMICAL SOCIETY

Introduction: Computational Design of Catalysts from Molecules to Materials

(2019) Daniel Ess et al.   CHEMICAL REVIEWS

Lattice strain-enhanced exsolution of nanoparticles in thin films

(2019) Hyeon Han et al.   Nature Communications

In Situ Observation of Nanoparticle Exsolution from Perovskite Oxides: From Atomic Scale Mechanistic Insight to Nanostructure Tailoring

(2019) Dragos Neagu et al.   ACS Nano

Review of perovskite-structure related cathode materials for solid oxide fuel cells

(2019) Paramvir Kaur et al.   CERAMICS INTERNATIONAL

Density functional theory study for the enhanced sulfur tolerance of Ni catalysts by surface alloying

(2018) Bohyun Hwang et al.   APPLIED SURFACE SCIENCE

Evolution of Exsolved Nanoparticles on a Perovskite Oxide Surface during a Redox Process

(2018) Ke-Yu Lai et al.   CHEMISTRY OF MATERIALS

Enhanced oxygen exchange of perovskite oxide surfaces through strain-driven chemical stabilization

(2018) Bonjae Koo et al.   Energy & Environmental Science

Nanomaterials for solid oxide fuel cells: A review

(2018) Abdalla M. Abdalla et al.   RENEWABLE & SUSTAINABLE ENERGY REVIEWS

Material Discovery and Design Principles for Stable, High Activity Perovskite Cathodes for Solid Oxide Fuel Cells

(2018) Ryan Jacobs et al.   Advanced Energy Materials

Sulphur tolerance of Au-modified Ni/GDC during catalytic methane steam reforming

(2018) F. M. Sapountzi et al.   Catalysis Science & Technology

Self-assembled alloy nanoparticles in layered double perovskite as a fuel oxidation catalyst for solid oxide fuel cells

(2018) Ohhun Kwon et al.   Journal of Materials Chemistry A

Nanomaterials and technologies for low temperature solid oxide fuel cells: Recent advances, challenges and opportunities

(2018) Liangdong Fan et al.   Nano Energy

In situ synthesis of supported metal nanocatalysts through heterogeneous doping

(2018) No Woo Kwak et al.   Nature Communications

Electrocatalysts with Increased Activity for Coelectrolysis of Steam and Carbon Dioxide in Solid Oxide Electrolyzer Cells

(2018) Ara Cho et al.   ACS Catalysis

Exsolution trends and co-segregation aspects of self-grown catalyst nanoparticles in perovskites

(2017) Ohhun Kwon et al.   Nature Communications

High-Performance Anode Material Sr2FeMo0.65Ni0.35O6−δ with In Situ Exsolved Nanoparticle Catalyst

(2016) Zhihong Du et al.   ACS Nano

Anode-Engineered Protonic Ceramic Fuel Cell with Excellent Performance and Fuel Compatibility

(2016) Bin Hua et al.   ADVANCED MATERIALS

Fundamental mechanisms involved in the degradation of nickel–yttria stabilized zirconia (Ni–YSZ) anode during solid oxide fuel cells operation: A review

(2016) Muhammad Shirjeel Khan et al.   CERAMICS INTERNATIONAL

A redox-stable direct-methane solid oxide fuel cell (SOFC) with Sr 2 FeNb 0.2 Mo 0.8 O 6−δ double perovskite as anode material

(2016) Hanping Ding et al.   JOURNAL OF POWER SOURCES

Impregnated LaCo 0.3 Fe 0.67 Pd 0.03 O 3-δ as a promising electrocatalyst for “symmetrical” intermediate-temperature solid oxide fuel cells

(2016) Jian Shen et al.   JOURNAL OF POWER SOURCES

New Opportunity for in Situ Exsolution of Metallic Nanoparticles on Perovskite Parent

(2016) Yi-Fei Sun et al.   NANO LETTERS

Suppressing cation segregation on lanthanum-based perovskite oxides to enhance the stability of solid oxide fuel cell cathodes

(2016) Hyunguk Kwon et al.   RSC Advances

From material design to mechanism study: Nanoscale Ni exsolution on a highly active A-site deficient anode material for solid oxide fuel cells

(2016) Yang Gao et al.   Nano Energy

Evolution of the electrochemical interface in high-temperature fuel cells and electrolysers

(2016) John T. S. Irvine et al.   Nature Energy

Evidence and Model for Strain-Driven Release of Metal Nanocatalysts from Perovskites during Exsolution

(2015) Tae-Sik Oh et al.   Journal of Physical Chemistry Letters

Promotion of Oxygen Reduction by Exsolved Silver Nanoparticles on a Perovskite Scaffold for Low-Temperature Solid Oxide Fuel Cells

(2015) Yinlong Zhu et al.   NANO LETTERS

Universality in surface mixing rule of adsorption strength for small adsorbates on binary transition metal alloys

(2015) Jeonghyun Ko et al.   PHYSICAL CHEMISTRY CHEMICAL PHYSICS

Nano-socketed nickel particles with enhanced coking resistance grown in situ by redox exsolution

(2015) Dragos Neagu et al.   Nature Communications

Advances in Cathode Materials for Solid Oxide Fuel Cells: Complex Oxides without Alkaline Earth Metal Elements

(2015) Yubo Chen et al.   Advanced Energy Materials

A-site deficient chromite perovskite with in situ exsolution of nano-Fe: a promising bi-functional catalyst bridging the growth of CNTs and SOFCs

(2015) Yi-Fei Sun et al.   Journal of Materials Chemistry A

A-site deficient perovskite: the parent for in situ exsolution of highly active, regenerable nano-particles as SOFC anodes

(2015) Yifei Sun et al.   Journal of Materials Chemistry A

Chromate cathode decorated with in-situ growth of copper nanocatalyst for high temperature carbon dioxide electrolysis

(2014) Huaxin Li et al.   INTERNATIONAL JOURNAL OF HYDROGEN ENERGY

Performance of cobalt-free perovskite La0.6Sr0.4Fe1−xNbxO3−δ cathode materials for proton-conducting IT-SOFC

(2014) Tian Yu et al.   JOURNAL OF ALLOYS AND COMPOUNDS

In situ Growth of NixCu1-x Alloy Nanocatalysts on Redox-reversible Rutile (Nb,Ti)O4 Towards High-Temperature Carbon Dioxide Electrolysis

(2014) Haoshan Wei et al.   Scientific Reports

Synthesis and applications of composite cathode based on Sm0.5Sr0.5Co3−δ for solid oxide fuel cell

(2013) Young Min Park et al.   KOREAN JOURNAL OF CHEMICAL ENGINEERING

In situ growth of nanoparticles through control of non-stoichiometry

(2013) Dragos Neagu et al.   Nature Chemistry

Step-change in high temperature steam electrolysis performance of perovskite oxide cathodes with exsolution of B-site dopants

(2012) George Tsekouras et al.   Energy & Environmental Science

Evidence of anti-coking behavior of La0.8Sr0.2Cr0.98Ru0.02O3 as potential anode material for Solid Oxide Fuel Cells directly fed under methane

(2012) T. Caillot et al.   JOURNAL OF CATALYSIS

Characterizations of impedance responses in an anode-supported solid oxide fuel cell with an air blowing system

(2012) Ju Hee Kim et al.   KOREAN JOURNAL OF CHEMICAL ENGINEERING

Direct octane fuel cells: A promising power for transportation

(2012) Mingfei Liu et al.   Nano Energy

Electrochemical Energy Storage for Green Grid

(2011) Zhenguo Yang et al.   CHEMICAL REVIEWS

Characterizations of composite cathodes with La0.6Sr0.4Co0.2Fe0.8O3−δ and Ce0.9Gd0.1O1.95 for solid oxide fuel cells

(2011) Ju Hee Kim et al.   KOREAN JOURNAL OF CHEMICAL ENGINEERING

Recent Progress in the Development of Anode Materials for Solid Oxide Fuel Cells

(2011) Peter I. Cowin et al.   Advanced Energy Materials

Pd-substituted (La,Sr)CrO3−δ–Ce0.9Gd0.1O2−δ solid oxide fuel cell anodes exhibiting regenerative behavior

(2010) David M. Bierschenk et al.   JOURNAL OF POWER SOURCES

Life cycle cost analysis to examine the economical feasibility of hydrogen as an alternative fuel

(2009) Ji-Yong Lee et al.   INTERNATIONAL JOURNAL OF HYDROGEN ENERGY

Carbon nanotube growth mechanism switches from tip- to base-growth with decreasing catalyst particle size

(2008) A. Gohier et al.   CARBON