TECHNOLOGY

Catalyst Technology for our Planet and Future Generations

The QuantumCat Difference

The Need for a New Environmental Catalyst for Carbon Neutralization

Strengthening environmental regulations There is a growing worldwide interest in environmental pollution, and environmental regulations are continuously strengthening in line with this.
(United Nations Framework Convention on Climate Change, a comprehensive form of pollution control plan that includes the EU Commission’s Euro 7, 2050 Carbon Neutral Plan)

There is a growing global concern for environmental pollution, leading to the continuous strengthening of environmental regulations worldwide. Initiatives such as the United Nations Framework Convention on Climate Change and the EU Commission’s Euro 7 and 2050 Carbon Neutral Plan are a few examples of comprehensive approaches to tackling pollution.

To meet these regulations, there is an increasing demand for technology that can purify emissions from automobiles, ships, and plants. As a result, the market for related technologies is rapidly expanding. However, the use of typical commercial platinum group catalysts (including rhodium, palladium, and platinum) has its limitations. These catalysts have restricted operational properties, often functioning only at high temperatures and with a reduced catalyst life and purification efficiency.

Moreover, prices of raw materials for these catalysts, such as rhodium, palladium, and platinum, have been rising due to unstable supply and demand, leading to declining economic efficiency.

Limitations of Conventional Platinum Group Catalysts

Therefore, there is a pressing need for a new kind of catalyst that boasts both high economic efficiency and a stable supply of raw materials, while also overcoming the issue of performance degradation that current platinum group catalysts face when operating at room temperature.

High Activity at Room Temperature and Long-Term Stability

QuantumCat’s core technology for gold nanocatalyst commercialization lies in our method of synthesizing nanoparticles, which are individually encapsulated within unique nanocages. This results in a catalyst material that has exceptional thermal and chemical stability, allowing it to maintain high catalytic activity without any performance compromise at varying room temperatures.

Thanks to this remarkable structural superiority, QuantumCat’s gold nanocatalyst eliminates the risk of performance degradation from poisoning, which is a significant issue with platinum group metal catalysts, guaranteeing a reliable and durable product.

Moreover, due to its superior catalytic performance, this innovative catalyst can achieve efficient results even when used in relatively small quantities compared to conventional platinum group catalysts. This feature allows it to deliver both performance and economy, setting a new gold standard in catalyst technology.

Gold nanoparticles + Control support interaction

Introduction of Au particle-nanocage “new material” (holding source patent)
Au particles in the cage maintain high stability/reactivity

QuantumCat Gold Nanocatalyst Family

QuantumCat’s gold nanocatalysts offer versatility across various industries, demonstrating their impressive performance in different forms (powder, bead, pellet, monolith, and foam) without compromising their efficiency.

POWDER

BEAD

PELLET

MONOLITH

FOAM

Applicable Uses for QuantumCat Gold Nanocatalysts

Room Temperature Carbon Monoxide Removal

Removal Of Low-Methane Removal

Room Temperature Hydrogen Removal