Solid Oxide Fuel Cell with Ionic Conducting Electrolyte / Part I:
Introduction / Bin Zhu and Peter D. Lund1:
An Introduction to the Principles of Fuel Cells / 1.1:
Materials and Technologies / 1.2:
New Electrolyte Developments on LTSOFC / 1.3:
Beyond the State of the Art: The Electrolyte-Free Fuel Cell (EFFC) / 1.4:
Fundamental Issues / 1.4.1:
Beyond the SOFC / 1.5:
References
Solid-state Electrolytes for SOFC / Liangdong Fan2:
Single-Phase SOFC Electrolytes / 2.1:
Oxygen Ionic Conducting Electrolyte / 2.2.1:
Stabilized Zirconia / 2.2.1.1:
Doped Ceria / 2.2.1.2:
SrO- and MgO-Doped Lanthanum Gallates (LSGM) / 2.2.1.3:
Proton-Conducting Electrolyte and Mixed Ionic Conducting Electrolyte / 2.2.2:
Alternative New Electrolytes and Research Interests / 2.2.3:
Ion Conduction/Transportation in Electrolytes / 2.3:
Composite Electrolytes / 2.4:
Oxide-Oxide Electrolyte / 2.4.1:
Oxide-Carbonate Composite / 2.4.2:
Materials Fabrication / 2.4.2.1:
Performance and Stability Optimization / 2.4.2.2:
Other Oxide-Salt Composite Electrolytes / 2.4.3:
Ionic Conduction Mechanism Studies of Ceria-Carbonate Composite / 2.4.4:
NANOCOFC and Material Design Principle / 2.5:
Concluding Remarks / 2.6:
Acknowledgments
Cathodes for Solid Oxide Fuel Cell / Tianmin He and Qingjun Zhou and Fangjun Jin3:
Overview of Cathode Reaction Mechanism / 3.1:
Development of Cathode Materials / 3.3:
Perovskite Cathode Materials / 3.3.1:
Mn-Based Perovskite Cathodes / 3.3.1.1:
Co-Based Perovskite Cathodes / 3.3.1.2:
Fe-Based Perovskite Cathodes / 3.3.1.3:
Ni-Based Perovskite Cathodes / 3.3.1.4:
Double Perovskite Cathode Materials / 3.3.2:
Microstructure Optimization of Cathode Materials / 3.4:
Nanostructured Cathodes / 3.4.1:
Composite Cathodes / 3.4.2:
Summary / 3.5:
Anodes for Solid Oxide Fuel Cell / Chunwen Sun4:
Overview of Anode Reaction Mechanism / 4.1:
Basic Operating Principles of a SOFC / 4.2.1:
The Anode Three-Phase Boundary / 4.2.1.1:
Development of Anode Materials / 4.3:
Ni-YSZ Cermet Anode Materials / 4.3.1:
Alternative Anode Materials / 4.3.2:
Fluorite Anode Materials / 4.3.2.1:
Perovskite Anode Materials / 4.3.2.2:
Sulfur-Tolerant Anode Materials / 4.3.3:
Development of Kinetics, Reaction Mechanism, and Model of the Anode / 4.4:
Summary and Outlook / 4.5:
Design and Development of SOFC Stacks / Wanting Guan5:
Change of Cell Output Performance Under 2D Interface Contact / 5.1:
Design of 2D Interface Contact Mode / 5.2.1:
Variations of Cell Output Performance Under 2D Contact Mode / 5.2.2:
2D Interface Structure Improvements and Enhancement of Cell Output Performance / 5.2.3:
Contributions of 3D Contact in 2D Interface Contact / 5.2.4:
Mechanism of Performance Enhancement After the Transition from 2D to 3D Interface / 5.2.5:
Control Design of Transition from 2D to 3D Interface Contact and Their Quantitative Contribution Differentiation / 5.3:
Control Design of 2D and 3D Interface Contact / 5.3.1:
Quantitative Effects of 2D Contact on the Transient Output Performance of a Cell / 5.3.2:
Quantitative Effects of 2D Contact on the Steady-State Output Performance of the Cell / 5.3.3:
Quantitative Effects of 3D Contact on Cell Transient Performance / 5.3.4:
Quantitative Effects of 3D Contact on the Steady-State Performance of a Cell / 5.3.5:
Differences Between 2D and 3D Interface Contacts / 5.3.6:
Conclusions / 5.4:
Electrolyte-Free Fuel Cells: Materials, Technologies, and Working Principles / Part II:
Electrolyte-Free SOFCs: Materials, Technologies, and Working Principles / Bin Zhu and Liangdong Fan and Jung-Sik Kim and Peter D. Lund6:
Concept of the Electrolyte-Free Fuel Cell / 6.1:
SLFC Using the Ionic Conductor-based Electrolyte / 6.2:
Developments on Advanced SLFC / 6.3:
From SLFCs to Semiconductor-Ionic Fuel Cells (SIFCs) / 6.4:
The SLFC Working Principle / 6.5:
Remarks / 6.6:
Ceria Fluorite Electrolytes from Ionic to Mixed Electronic and Ionic Membranes / Baoyuan Wang and Liangdong Fan and Yanyan Liu and Bin Zhu7:
Doped Ceria as the Electrolyte for Intermediate Temperature SOFCs / 7.1:
Surface Doping for Low Temperature SOFCs / 7.3:
Non-doped Ceria for Advanced Low Temperature SOFCs / 7.4:
Charge Transfer in Oxide Solid Fuel Cells / Jing Shi and Sining Yun8:
Oxygen Diffusion in Perovskite Oxides / 8.1:
Oxygen Vacancy Formation / 8.1.1:
Oxygen Diffusion Mechanisms / 8.1.2:
Anisotropy Oxygen Transport in Layered Perovskites / 8.1.3:
Oxygen Transport in Ruddlesden-Popper (RP) Perovskites / 8.1.3.1:
Oxygen Transport in A-Site Ordered Double Perovskites / 8.1.3.2:
Oxygen Ion Diffusion at Grain Boundary / 8.1.4:
Factors Controlling Oxygen Migration Barriers in Perovskites / 8.1.5:
Proton Diffusion in Perovskite-Type Oxides / 8.2:
Proton Diffusion Mechanisms / 8.2.1:
Proton-Dopant Interaction / 8.2.2:
Influence of Dopants in A-site / 8.2.2.1:
Influence of Dopants in B-Stte / 8.2.2.2:
Long-range Proton Conduction Pathways in Perovskites / 8.2.3:
Hydrogen-Induced Insulation
Enhanced Ion Conductivity in Oxide Heterostructures / 8.3:
Enhanced Ionic Conduction by Strain / 8.3.1:
Enhanced Ionic Conductivity by Band Bending / 8.3.2:
Surface State-induced Band Bending / 8.3.2.1:
Band Bending in p-n Heterojunctions / 8.3.2.2:
p-n Hetero junction Structures in SOFC / 8.3.2.3:
Material Development II: Natural Material-based Composites for Electrolyte Layer-free Fuel Cells / Chen Xia and Yanyan Liu8.4:
Materials Development for EFFCs / 9.1:
Natural Materials as Potential Electrolytes / 9.1.2:
Industrial-grade Rare Earth for EFFCs / 9.2:
Rare-earth Oxide LCP / 9.2.1:
Semiconducting-Ionic Composite Based on LCP / 9.2.2:
LCP-LSCF / 9.2.2.1:
LCP-ZnO / 9.2.2.2:
Stability Operation and Schottky Junction of EFFC / 9.2.3:
Performance Stability / 9.2.3.1:
In Situ Schottky Junction Effect / 9.2.3.2:
Natural Hematite for EFFCs / 9.2.4:
Natural Hematite / 9.3.1:
Semiconducting-Ionic Composite Based on Hematite / 9.3.2:
Hematite-LSCF / 9.3.2.1:
Hematite/LCP-LSCF / 9.3.2.2:
Natural CuFe Oxide Minerals for EFFCs / 9.3.3:
Natural CuFe2O4 Mineral for EFFC / 9.4.1:
Natural Delafossite CuFeO2 for EFFC / 9.4.2:
Bio-derived Calcite for EFFC / 9.4.3:
Charge Transfer, Transportation, and Simulation / Muhammad Afzal and Mustafa Anwar and Muhammad I. Asghar and Peter D. Lund and Naveed Jhamat and Rizwan Raza and Bin Zhu9.5.1:
Physical Aspects / 10.1:
Electrochemical Aspects / 10.2:
Ionic Conduction Enhancement in Heterostructure Composites / 10.3:
Charge Transportation Mechanism and Coupling Effects / 10.4:
Surface and Interfacial State-Induced Superionic Conduction and Transportation / 10.5:
Ionic Transport Number Measurements / 10.6:
Determination of Electron and Ionic Conductivities in EFFCs / 10.7:
EIS Analysis / 10.8:
Semiconductor Band Effects on the Ionic Conduction Device Performance / 10.9:
Simulations / 10.10:
Electrolyte-Free Fuel Cell: Principles and Crosslink Research / Yan Wu and Liangdong Fan and Naveed Mushtaq and Bin Zhu and Muhammad Afzal and Muhammad Sajid and Rizwan Raza and Jung-Sik Kim and Wen-Feng Lin and Peter D. Lund11:
Fundamental Considerations of Fuel Cell Semiconductor Electrochemistry / 11.1:
Physics and Electrochemistry at Interfaces / 11.2.1:
Electrochemistry vs. Semiconductor Physics / 11.2.2:
Working Principle of Semiconductor-Based Fuel Cells and Crossing Link Sciences / 11.3:
Extending Applications by Coupling Devices / 11.4:
Final Remarks / 11.5:
Fuel Cells: From Technology to Applications / Part III:
Scaling Up Materials and Technology for SLFC / Kang Yuan and Zhigang Zhu and Muhammad Afzal and Bin Zhu12:
National Conference on Artificial Intelligence ; Association for the Advancement of Artificial Intelligence
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SPE Technical Conference and Exhibition ; Society of Petroleum Engineers of AIME
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Summary of Currently Available Mouse Models / Amilto and Namiko Ito and Kimie Niimi and Takashi Ami and Eiki Takahashi1:
Introduction / 1.1:
Origin and History of Laboratory Mice / 1.2:
Laboratory Mouse Strains / 1.3:
Wild-Derived Mice / 1.3.1:
Inbred Mice / 1.3.2:
Hybrid Mice / 1.3.3:
Outbred Stocks / 1.3.4:
Closed Colony / 1.3.5:
Congenic Mice / 1.3.6:
Mutant Mice / 1.4:
Spontaneous / 1.4.1:
Transgenesis / 1.4.2:
Targeted Mutagenesis / 1.4.3:
Inducible Mutagenesis / 1.4.4:
Cre-loxP System / 1.4.5:
CRISPR/Cas9 System / 1.4.6:
Resources of Laboratory Strains / 1.5:
Germ-Free Mice / 1.6:
Gnotobiotic Mice / 1.7:
Specific Pathogen-Free Mice / 1.8:
Immunocompetent and Immunodeficient Mice / 1.9:
Mouse Health Monitoring / 1.10:
Production and Maintenance of Mouse Colony / 1.11:
Production Planning / 1.11.1:
Breeding Systems and Mating Schemes / 1.11.2:
Mating / 1.12:
Gestation Period / 1.13:
Parturition / 1.14:
Parental Behavior and Rearing Pups / 1.15:
Growth of Pups / 1.16:
Reproductive Lifespan / 1.17:
Record Keeping and Colony Organization / 1.18:
Animal Identification / 1.19:
Animal Models in Preclinical Research / 1.20:
References
General Notes of Chemical Administration to Live Animals / Ami Ito and Nomiko Ito and Takashi Arai and Eiki Takahashi and Kimie Niimi2:
Restraint / 2.1:
One-Handed Restraint / 2.2.1:
Two-Handed Restraint / 2.2.2:
Substances / 2.3:
Substance Characteristics / 2.3.1:
Vehicle Characteristics / 2.3.2:
Frequency and Volume of Administration / 2.3.3:
Needle Size / 2.3.4:
Anesthesia / 2.4:
Inhaled Agents / 2.4.1:
Injectable Agents / 2.4.2:
Euthanasia / 2.5:
Administration / 2.6:
Enteral Administration / 2.6.1:
Oral Administration / 2.6.1.1:
Intragastric Administration / 2.6.1.2:
Parenteral Administration / 2.6.2:
Subcutaneous Administration / 2.6.2.1:
Intraperitoneal Administration / 2.6.2.2:
Intravenous Administration / 2.6.2.3:
Intramuscular Administration / 2.6.2.4:
Intranasal Administration / 2.6.2.5:
Intradermal Administration / 2.6.2.6:
Epicutaneous Administration / 2.6.2.7:
Intratracheal Administration / 2.6.2.8:
Inhalational Administration / 2.6.2.9:
Retro-orbital Administration / 2.6.2.10:
Optical-Based Detection in Live Animals / Mikako Ogawa and Hideo Takakura3:
Basics of Luminescence / 3.1:
Appropriate Wavelengths for Live Animal Imaging / 3.1.2:
Advantages and Disadvantages of In Vivo Optical Imaging / 3.1.3:
Fluorescence Imaging in Live Animals / 3.2:
Fluorescent Molecules for Live Animal Imaging / 3.2.1:
How to Detect Fluorescence in Live Animals? / 3.2.2:
Activatable Probes / 3.2.3:
Microscope / 3.2.4:
Application of Fluorescence Imaging to Drug Development / 3.2.5:
Luminescence Imaging in Live Animals / 3.3:
Luminescence Systems for Live Animal Imaging / 3.3.1:
Firefly/Beetle Luciferin-Luciferase System / 3.3.1.1:
Coelenterazine-Dependent Luciferase System / 3.3.1.2:
Chemiluminescence System / 3.3.1.3:
How to Detect Luminescence in Live Animals? / 3.3.2:
Luciferase-Based Bioluminescence Probes for In Vivo Imaging / 3.3.3:
Summary / 3.4:
Ultrasound Imaging in Live Animals / Francesco Faita4:
High-Frequency Ultrasound Imaging / 4.1:
Ultrasound Contrast Agents / 4.3:
Photoacoustic Imaging / 4.4:
Preclinical Applications / 4.5:
Cardiovascular / 4.5.1:
Oncology / 4.5.2:
Developmental Biology / 4.5.3:
Positron Emission Tomography (PET) Imaging in Live Animals / Xiaowei Ma and Zhen Cheng5:
Brief History of PET / 5.1:
Principles of PET / 5.3:
Small-Animal PET Scanners / 5.4:
PET Imaging Tracers / 5.5:
Metabolic Probe / 5.5.1:
Specific Receptor Targeting Probe / 5.5.2:
Gene Expression / 5.5.3:
Specific Enzyme Substrate / 5.5.4:
Microenvironment Probe / 5.5.5:
Biological Processes / 5.5.6:
Perfusion Probes / 5.5.7:
Nanoparticles / 5.5.8:
PET in Animal Imaging / 5.6:
PET in Oncology Model / 5.6.1:
Cancer Diagnosis / 5.6.1.1:
Personal Treatment Screening / 5.6.1.2:
Therapeutic Effect Monitoring / 5.6.1.3:
Radiotherapy Planning / 5.6.1.4:
Drug Discovery / 5.6.1.5:
PET in Cardiology Model / 5.6.2:
PET in Neurology Model / 5.6.3:
PET Imaging in Other Disease Models / 5.6.4:
PET Image Analysis / 5.7:
Outlook for the Future / 5.8:
Reference
Single-Photon Emission Computed Tomographic Imaging in Live Animals / Yusuke Yagi and Hidekazu Kawashima and Kenji Arimitsu and Koki Hasegawa and Hiroyuki Kimura6:
SPECT Devices Used in Small Animals / 6.1:
Innovative Preclinical Full-Body SPECT Imager for Rats and Mice: ¿-CUBE / 6.2.1:
Innovative Preclinical Full-Body PET Imager for Rats and Mice: ß-CUBE / 6.2.2:
Innovative Preclinical Full-Body CT Imager for Rats and Mice: X-CUBE / 6.2.3:
Animal Monitoring: Its Importance and Overview of MOLECUBES's Integrated Solution to Advance Physiological Monitoring / 6.2.4:
Selected Applications Acquired on the CUBES / 6.2.5:
SPECT Imaging with ¿-CUBE / 6.2.5.1:
PET Imaging with ß-CUBE / 6.2.5.2:
CT Imaging with X-CUBE / 6.2.5.3:
Characteristics of SPECT Radionuclides and SPECT Imaging Probes / 6.3:
Characteristics of SPECT Radionuclides / 6.3.1:
Characteristics of SPECT Imaging Probes / 6.3.2:
Radiolabeling / 6.4:
Characteristic of Radiolabeling / 6.4.1:
Radiolabeling with Technetium-99m / 6.4.2:
Radiolabeling with Iodine-123 and Iodine-131 / 6.4.3:
Radioactive Iodine Labeling for Small Molecular Compounds / 6.4.4:
National Conference on Artificial Intelligence ; Association for the Advancement of Artificial Intelligence
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Air and Waste Management Association Conference and Exhibition ; Air & Waste Management Association
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National Conference on Artificial Intelligence ; Association for the Advancement of Artificial Intelligence
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Association for the Advancement of Artificial Intelligence
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Removal of Fe (II) from Aqueous Solution by Chitosan Activated Carbon Composite Beads / Putri Wulan; Yuni Kusumastuti; Agus Prasetya
Performance Evaluation of Water Filter Made from Oyong (Luffa #1089;ylindrica) Fiber Coated with Silver Nano Particles for Coliform Bacteria Removal in Wastewater / Awaluddin Nurmiyanto; Lutfia Isna Ardhayanti; Anisa Wigati; Cahyo Laksono
Vegetable Waste and Food Waste Treatment Using Modified Aerobic Composting Reactor / Yebi Yuriandala; Nujumul Laily; Fina Binazir Maziya
Bioleaching of Valuable Metals from Spent Catalyst Using Metabolic Citiric Acid by Aspergillus niger / Himawan Tri Bayu Murti Petrus; Hotden Manurung; Rivky Juarsa Aditya; Rifani Amanda; Widi Astuti
Optimization of Laccase Production from Penicillium sp. LX/08 for Biodelignification of Ramie (Boehmeria nivea L. Gaud) / Asri Peni Wulandari; Zulfa Illiyyin; Hendro Risdianto
Minimize the Solid Waste by Reducing the Rubber Compound Consumption in the Outsole Manufacturing Company / R.B. Seno Wulung; M. Zainuddin Rifai
Organic Waste Management and Integrated Bio-Cycle Farming System for Sustainable Development in Tropical Ecosystem / Cahyono Agus; Pita Asih Bekti Cahyanti; Bambang Suhartanto; Pipit Noviyani
A New Paradigm for Solid Waste Management in Integrated Waste Management Site Piyungan Yogyakarta, Indonesia / Diananto Prihandoko; Arief Budiman; Chafid Fandeli; Prabang Setyono
Municipal Solid Waste Characteristic and Energy Potential in Piyungan Landfill / Adolf Leopold S.M. Sihombing; Ragil Darmawan
Quality of Municipal Solid Waste Compost from Mechanical Biological Treatment (MBT) / Erna Lestianingrum; Misnen
Removal of Fe (II) from Aqueous Solution by Chitosan Activated Carbon Composite Beads / Putri Wulan; Yuni Kusumastuti; Agus Prasetya
Performance Evaluation of Water Filter Made from Oyong (Luffa #1089;ylindrica) Fiber Coated with Silver Nano Particles for Coliform Bacteria Removal in Wastewater / Awaluddin Nurmiyanto; Lutfia Isna Ardhayanti; Anisa Wigati; Cahyo Laksono
Vegetable Waste and Food Waste Treatment Using Modified Aerobic Composting Reactor / Yebi Yuriandala; Nujumul Laily; Fina Binazir Maziya
Pittsburgh, Pa. : International Pittsburgh Coal Conference , Red Hook, NY : Printed with permission by Curran Associates, 2022, c2021 p. 429-879 ; 28 cm
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