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BS-008
BESIN
Product Description
Pure Decomposition, Zero Secondary Pollution
The Baysen Nano-Cluster Purification Filter utilizes the oxygen activation effect of valence electrons in metal clusters. Under aerobic conditions, it effectively decomposes gaseous pollutants such as formaldehyde and trimethylamine, as well as ozone, without generating harmful byproducts—ensuring fundamental pollutant elimination.
Energy-Free, Oxygen-Driven Decomposition
As a non-consumable catalyst, the filter requires no external energy. It continuously breaks down short-chain gaseous pollutants (e.g., formaldehyde, trimethylamine) in the presence of oxygen, achieving zero-energy purification.
High Efficiency, Rapid Air Refresh
In a 3m air duct equipped with 1.5 Nano-Cluster Filter, testing under the following conditions:
Chamber volume: 30m³
Airflow rate: 500m³/h
Initial formaldehyde concentration: 0.87mg/m³
Results:
Formaldehyde reduced to <0.05mg/m³ within 60 minutes (removal rate: 93.3%).
94.2% trimethylamine removal in 10 minutes.
99.5% ozone interception rate during continuous operation.
| Feature | Traditional Filter | Nano-Cluster Purification Filter |
| Replacement Frequency | Every 3-6 months | Lifetime use, no replacement |
| Purification Mechanism | Physical adsorption/interception | Physicochemical catalytic degradation |
| Long-Term Cost | Recurring consumable expenses | One-time investment, cost-saving |
| Environmental Impact | Discarded filters cause pollution | Zero waste, eco-sustainable |
Nano-clusters are stable aggregates composed of two or more atoms or ions, exhibiting the largest specific surface area and highest atomic utilization efficiency among all materials.
The nano-cluster catalyst enhances the activation of oxygen molecules in the air. Through this process, reactive oxygen species (ROS) oxidize formaldehyde (HCHO), converting it into carbon dioxide (CO₂) and water (H₂O).
Nano-clusters, also referred to as ultrafine clusters, fall within the dimensional scope of nanomaterials. They consist of atomic aggregates formed by two or more interconnected atoms, exhibiting the largest specific surface area and highest atomic utilization efficiency among all known materials.
Core Innovation:
By implementing a specific sequential stacking configuration, we achieve a synergistic enhancement effect, significantly amplifying the metal atoms' ability to elevate surrounding catalytic activity. This results in an optimized metal atomic aggregate—the nano-cluster catalyst.
Mechanism of Action:
Ultrafast Oxygen Activation
The catalyst accelerates oxygen activation in air within 100 nanoseconds (10⁻⁸ s), generating singlet oxygen (¹O₂)*—an excited-state oxygen molecule with high reactivity.
Formaldehyde Degradation Pathway
The singlet oxygen captures formaldehyde (HCHO), triggering an oxidation reaction that decomposes it into carbon dioxide (CO₂) and water (H₂O)
