PGMs, particularly platinum, palladium, and rhodium, are essential components in catalytic converters used in automobiles. They help convert harmful pollutants from exhaust gases into less harmful substances, thereby reducing air pollution and improving air quality.

– Emissions Control

 

 

PGMs are crucial catalysts in fuel cells, a clean and efficient energy technology. They enable the conversion of hydrogen and oxygen into electricity and water, offering a sustainable alternative to traditional combustion-based power generation.

– Fuel Cells

 

 

PGMs serve as catalysts in various industrial processes, including petrochemical refining and the production of chemicals and pharmaceuticals. Their catalytic properties enhance reaction rates and selectivity, contributing to efficient and environmentally friendly manufacturing.

– Industrial Process Chemistry

 

 

Precious metals like platinum and palladium are used to coat electrodes and components in electrochemical corrosion protection systems. These systems prevent the corrosion of metals in various applications, extending the lifespan of infrastructure and equipment.

– Corrosion Protection

 

 

Biocompatible precious metals like platinum, palladium, and gold are used in medical implants and devices. They are highly resistant to corrosion and do not trigger adverse reactions within the human body, making them suitable for applications like pacemakers and dental implants.

– Medical Implants

 

 

Precious metals, including gold and platinum group, have been cherished for their beauty and rarity for centuries. They are used in the creation of high-quality jewelry and adornments.

– Jewelry

Given importance in these applications, it is crucial to adopt responsible practices for the extraction, recovery, and recycling of these precious metals. 

Here’s why:

 

 

PGMs and other precious metals are finite resources. Responsible extraction and recycling help conserve these valuable materials for future generations.

– RESOURCE CONSERVATION

 

 

The mining and processing of precious metals can have environmental consequences. Responsible management reduces the environmental footprint associated with their production.

– Environmental Impact

 

 

Ensuring a stable supply of these metals is vital for industries and technologies dependent on them. Developing efficient recovery and recycling methods contributes to economic stability.

– Economic Sustainability

 

 

Recycling and recovering precious metals from various sources, such as electronic waste and spent catalysts, reduces the need for new mining and minimizes waste generation.

– Waste Reduction