Product Overview
Hiyka's Cerium (IV) Oxide, with its high purity and fine particulate form, is engineered to deliver superior performance in a variety of critical applications, from automotive exhaust catalysts to precision glass polishing. Known for its excellent oxygen storage capacity and stability under high temperatures, cerium (IV) oxide is a key material in reducing vehicle emissions, enhancing fuel efficiency, and improving the optical quality of lenses and mirrors. Our product is designed to meet the rigorous demands of industries seeking to leverage advanced materials for environmental sustainability, energy efficiency, and technological innovation.
Key factor
- High Oxygen Storage Capacity: Essential for catalytic converters in automotive applications, facilitating efficient emission reduction.
- Exceptional Stability: Maintains its catalytic activity and structural integrity under high temperatures and varying oxygen environments.
- Superior Polishing Agent: Provides unmatched performance in chemical-mechanical planarization (CMP) and glass polishing, delivering smooth, defect-free surfaces.
- Environmental Catalyst: Acts as a catalyst and catalyst support in water-gas shift reactions, fuel cells, and other environmental applications.
- Enhanced Electrical Conductivity: Useful in solid oxide fuel cells (SOFCs) and oxygen sensors due to its ionic conductivity properties.
Applications
- Automotive Catalysis: Integral to catalytic converters for reducing harmful emissions in gasoline and diesel engines.
- Glass and Lens Polishing: Utilized in the precision polishing of optical components, LCD displays, and photovoltaic panels.
- Environmental Purification: Employed in processes for air and water purification, breaking down pollutants through catalytic reactions.
- Energy Technologies: Contributes to the development of fuel cells and hydrogen production, enhancing energy conversion efficiency.
- Material Science Research: Serves as a subject of study for its unique properties and potential applications in nanotechnology and advanced materials.
Advantages
- Improved Environmental Impact: Directly contributes to reducing pollutant emissions and advancing clean energy solutions.
- Enhanced Product Quality: Enables the production of high-quality optical surfaces and improved durability of catalytic materials.
- Innovative Potential: Supports the development of new technologies and applications in the field of advanced materials and environmental science.
- Reliability and Performance: Offers consistent quality, high purity, and performance in demanding industrial and technological applications.
- Cost-Effective: Provides a durable and efficient solution, potentially lowering operational costs in catalysis and polishing applications.
References
- Antioxidant cerium oxide nanoparticles in biology and medicine, BC Nelson, ME Johnson, ML Walker, KR Riley… - Antioxidants, 2016 - mdpi.com
- Synthesis of cerium oxide (CeO2) by co-precipitation for application as a reference material for X-ray powder diffraction peak widths, AM de Lima Batista, MAR Miranda, FICC Martins… - Powder …, 2018 - cambridge.org
- Ce 3d XPS investigation of cerium oxides and mixed cerium oxide (CexTiyOz), E Bêche, P Charvin, D Perarnau… - … Journal devoted to …, 2008 - Wiley Online Library