A5072556435- Magnesium Alloys: Properties and Applications
- Aluminum Alloys Composites Properties
- HIV/AIDS Research and Interventions
- Advancements in Solid Oxide Fuel Cells
- Electrical and Thermal Properties of Materials
- Opioid Use Disorder Treatment
- Advanced battery technologies research
- HIV, Drug Use, Sexual Risk
- Aluminum Alloy Microstructure Properties
- Advanced Battery Materials and Technologies
- Thermal Expansion and Ionic Conductivity
- Food Security and Health in Diverse Populations
- Adolescent Sexual and Reproductive Health
- Electrocatalysts for Energy Conversion
- Primary Care and Health Outcomes
- Metallurgical and Alloy Processes
- Healthcare Policy and Management
- Hydrogen Storage and Materials
- Advanced Photocatalysis Techniques
- Emergency and Acute Care Studies
- Substance Abuse Treatment and Outcomes
- Chronic Disease Management Strategies
- Advanced Battery Technologies Research
- Homelessness and Social Issues
- Health Policy Implementation Science
Johns Hopkins Medicine
2022-2024
Johns Hopkins University
2022-2024
Johns Hopkins All Children's Hospital
2023-2024
University of Waterloo
2020-2021
McMaster University
2012-2018
Abstract Electrochemical CO 2 conversion offers an attractive route for recycling with economic and environmental benefits, while the catalytic materials electrode structures still require further improvements scale‐up application. Electrocatalytic surface near‐surface engineering (ESE) has great potential to advance reduction reactions (CO RR) improved activity, selectivity, energetic efficiency, stability, reduced overpotentials. This review initially provides a panorama of ESE effects...
The properties of Cu-Mn-O spinels containing Mg were studied for use as protective coatings on UNS430 stainless steel interconnects in solid oxide fuel cells. Cu-Mn-Mg-O spinel formed by oxidizing electrodeposited copper, manganese, and magnesium hydroxide films air at 800°C. A base layer copper aided uniform manganese deposition formation. Mg-Mn-O pseudobinary phase diagram based XRD results shows a wide range non-stoichiometry. CuMn2O4 coating has higher conductivity (∼100 S/cm 800°C) but...
Magnesium and manganese were electrodeposited on stainless steel 430 oxidized in air at 800°C to form a spinel coating. Electrical conductivity of MgMn 2 O 4 was determined be ~2 S/cm 800°C. An under layer copper aided uniform deposition formation. Copper the also increased (Cu 0.7 Mg 0.3 Mn ~60 800°C). The ternary Cu-Mg-Mn system has wide stability region compared binary systems. CuMn without magnesium higher (~100 800°C) but this coating tended bubble detach from substrate. bubbling effect...
Abstract not Available.