The first patent for an oxygen scav

The first patent for an oxygen scavenger used an alkaline solution of pyrogallic acid in an air-tight vessel.[6][7]

Modern scavenger sachets use a mixture of iron powder and sodium chloride.[7] Often activated carbon is also included as it adsorbs some other gases and many organic molecules, further preserving products and removing odors.

When an oxygen absorber is removed from its protective packaging, the moisture in the surrounding atmosphere begins to permeate into the iron particles inside of the absorber sachet. Moisture activates the iron, and it oxidizes to form iron oxide. Typically, there must be at least 65% relative humidity in the surrounding atmosphere before the rusting process can begin. To assist in the process of oxidation, sodium chloride is added to the mixture, acting as a catalyst or activator, causing the iron powder to be able to oxidize even with relative low humidity. As oxygen is consumed to form iron oxide the level of oxygen in the surrounding atmosphere is reduced. Absorber technology of this type may reduce the oxygen level in the surrounding atmosphere to below 0.01%.[2][3] Complete oxidation of 1 g of iron can remove 300 cm3 of oxygen in standard conditions. Though other technologies can remove more, iron is the most useful as it does not cause odor like sulfur compounds or passivate like aluminium compounds. Many other alternatives are not food safe.[7] The moisture requirement of iron-based scavengers makes them ineffective in moisture sensitive applications.

The performance of oxygen scavengers is affected by ambient temperature and relative humidity.[8] Newer packaging technologies may use oxygen scavenging polymers to prevent accidental ingestion of oxygen scavengers.[7]