About Photocatalysts

TiO2 powder, ZnO2 powder, Bi2O3 powder, Bi2S3 powder, bismuth hydroxide powder, Bismuth Vanadate (BiVO4) powder, [Ru(bpz)3][PF6]2, Lanthan-Nickel-Oxide (LNO) powder

Purity: >99%

Our range of photocatalytic materials is developed for scientific applications that utilise light energy. The materials achieve a purity above 99% as confirmed by analytical tests.

Product Highlights:

TiO2 powder: Titanium dioxide (TiO2) powder is used for light-assisted operations in air purification, self-cleaning surfaces and water treatment. Researchers have noted measurable degradation of pollutants using this material.

ZnO2 powder: Zinc oxide (ZnO2) powder supports photocatalytic reactions. It produces reactive oxygen species under light exposure, thereby facilitating the removal of pollutants.

Bi2O3 powder and Bi2S3 powder: These bismuth-based compounds are applied in the conversion of solar energy, water splitting and environmental remediation. Their photocatalytic activity is supported by quantitative assessments.

Bismuth hydroxide powder: Bismuth hydroxide powder is evaluated for its ability to generate hydroxyl radicals. It is used in degrading organic contaminants during oxidation processes.

Bismuth Vanadate (BiVO4) powder: Bismuth vanadate (BiVO4) powder is designed for efficient light absorption and charge separation. It is utilised in water splitting, CO2 reduction and energy conversion experiments.

[Ru(bpz)3][PF6]2 and Lanthan-Nickel-Oxide (LNO) powder: These materials exhibit distinct electronic properties for light-driven reactions and energy conversion. They have been deployed in several controlled laboratory tests.

Applications of Photocatalysts:

The photocatalysts are applied in varied scientific and industrial fields:

Environmental Remediation: Photocatalysis is used to degrade pollutants in water and air. Studies have documented measurable pollutant reduction.

Renewable Energies: Photocatalysts support solar-assisted processes such as water splitting and CO2 reduction. The approach contributes to sustainable energy practices.

Chemical Synthesis: Light-driven reactions facilitate the synthesis of useful compounds. Applications have been validated through controlled experiments.

Advanced Oxidation: Photocatalysts are used in oxidation processes to remove organic contaminants and toxins. Process efficiency has been quantified in recent tests.

Main Features:

High Purity: The materials achieve a purity exceeding 99%, which ensures consistent performance as documented by standard tests.

Tailored Properties: Each material is designed for specific photocatalytic applications and offers measurable advantages in performance.

Sustainable Solutions: The materials support environmentally friendly processes and sustainable practices in research and industry.

Precision Craftsmanship: Each product is manufactured under strict protocols that meet the highest quality standards.

Quality Assurance: The materials are assessed using recognised testing procedures to ensure they meet established quality and performance criteria.

Enhance Your Projects:

Our approach is based on precision and scientific rigour. Researchers, engineers and technical specialists may use these materials to achieve measurable progress.