Cascade’s Innovative Water-Soluble Smart Film

Why each pod’s smart film is expertly engineered

Cascade pods are convenient dishwasher detergent capsules that provide powerful cleaning in a pre-measured pac. Each Cascade pod features multi-chamber technology for effective and superior dish cleaning, taking the hard work out of one of the most disliked household tasks. Learn more about how Cascade pods work by clicking here.

What is the smart film on Cascade Pods?

The unmatched cleaning power of Cascade pods is made possible by a water-soluble film using polyvinyl alcohol (also known as PVA or PVOH). PVA is a very common polymer used in lots of applications including medicinal pill capsules and eye drops. It’s especially effective for Cascade because it keeps each ingredient separate until they combine at the right moment in the dishwashing cycle and then the PVA dissolves in water.

While you may have heard that PVA used in dishwasher detergent pods contributes to microplastics, there is zero evidence to back that up. There is overwhelming scientific evidence that Cascade film does not create microplastics.

Feature / Characteristic Polyvinyl Alcohol (PVA) Used in Detergent Films Most Common Microplastics: Polyethylene (PE), Polypropylene (PP), Polystyrene (PS), Polyethylene Terephthalate (PET), Polyamide (PA), Polyvinyl Chloride (PVC), Acrylonitrile Butadiene Styrene (ABS)
Water Solubility Detergent-grade PVA has been scientifically confirmed to be:
  • Water-soluble in laundry and dishwashing conditions [1] , [2]
  • Designed in a way to maximize the solubility of the PVA [2] , [3]
  • Water-soluble [2] at levels 50X higher than you would find in a dishwasher or laundry machine, using the international standard for polymer solubility [4]
Detergent grade PVA is so soluble that it dissolves down to the individual molecules, which do not and cannot reform into particles. This means there is no solid surface for toxic substances in the water to adsorb onto. [5] , [6] , [7] 		Microplastics are insoluble [32] . Even the smallest possible fragments are collections of multiple molecules which do not dissolve.

This means they can accumulate in bodies of water. This means they have a solid surface to adsorb and transport other toxic chemicals. [8] , [9] , [10]
Biodegradability Detergent-grade PVA degrades during the normal wastewater treatment process, using universally recognized standard testing methodologies (OECD 301B, 302B). [11] , [12] , [13]

It breaks down consistently and reproducibly across a range of laboratory sites, geographical locations, and under a variety of testing conditions, even in river water. [14] 		Microplastics are extremely persistent in the environment, with degradation timelines ranging from decades to centuries, depending on conditions. [10]
Presence in Water Bodies Zero evidence of detergent-grade PVA has been found in the aquatic environment, including zero presence found in drinking water. [15] Microplastics have been detected in oceans, rivers, lakes, fish, birds, plankton, and remote areas, and in drinking water. [10] , [15] , [16] , [17] , [18]
Accumulation in Living Species It is not considered a risk, as it does not accumulate. Detergent-grade PVA has never been found in the human body. [19] , [20] , [21] , [30] , [31] Microplastics will accumulate due to their solubility in cells’ fat structures and have been found in most parts of the human body. [10] , [21]
Presence in the Home Environment Detergent-grade PVA has never been found in the home environment, even in dishwasher and washing machine use or homes. [1] , [22] ,
[23] , [24] , [25] , [26] 		Microplastics have been found in numerous household products as solid particles.
[1] , [22] , [23] , [24] , [25] , [26]
Toxicity The environmental safety and human safety of detergent-grade PVA has been confirmed by the EPA, FDA, and other agencies around the world – and it is approved for use in things like detergent pods, eye drops, and the coating of medications. [19] ,
[20] , [21] , [27] , [28] , [29] , [30] , [31] 		Microplastics can be harmful to marine life and pose a physical hazard to animals. They can also absorb pollutants due to their solid surface. [7] , [8]
Generally Recognized as a Microplastic No, detergent-grade PVA is not generally recognized by the scientific community as a microplastic. [10] , [32] , [33] Yes, all these materials fit the generally accepted definition and categorization of a microplastic. [10] ,
[32]

To learn more about what’s in Cascade dish detergent, click here.

What is polyvinyl alcohol (PVA)?

PVA is a water-soluble polymer used to make dishwasher detergent packs. PVA is a very common polymer used in lots of applications including medicinal pill capsules and eye drops. The type of PVA used for detergents like Cascade is remarkable – it’s specially designed to stay strong when dry and rapidly dissolve when submerged in water during the dishwasher cycle!

For more information on the safe use of PVA used in detergent products, click here.

The American Cleaning Institute is debunking myths around detergents and PVA . For an accurate and evidence-based fact sheet on the topic, click here.

To learn more about the technology of Cascade pods, click here.

To learn more about Cascade’s rigorous safety standards, click here.

Reference Links:

  1. Lack of Evidence for Microplastic Contamination from Water-Soluble Detergent Capsules
  2. EPA: Denial of Requested Rulemaking (Section IV, C.1)
  3. Some Properties of PVA and their Possible Applications
  4. OECD: Solution/Extraction Behaviour of Polymers in Water
  5. Defining the Conformation of Water-Soluble Poly(vinyl alcohol) in Solution: A SAXS, DLS, and AFM Study
  6. Bound water governs the single-chain property of Poly(vinyl alcohol) in aqueous environments
  7. Characterization of Partially Hydrolyzed Poly(vinyl alcohol). Effect of Poly(vinyl alcohol) Molecular Architecture on Aqueous Phase Conformation
  8. Microplastics as carriers of toxic pollutants: Source, transport, and toxicological effects
  9. Sorption Behavior and Mechanisms of Organic Contaminants to Nano and Microplastics
  10. Twenty years of microplastic pollution research—what have we learned?
  11. Water soluble polymer biodegradation evaluation using standard and experimental methods
  12. Application of standardized methods to evaluate the environmental safety of polyvinyl alcohol disposed of down the drain
  13. Biodegradability of Polyvinyl Alcohol Based Film Used for Liquid Detergent Capsules
  14. Multi-laboratory evaluation of the reproducibility of polymer biodegradation assessments applying standardized and modified respirometry methods
  15. Analytical methods to measure microplastics in drinking water
  16. Plastic Debris in 29 Great Lakes Tributaries: Relations to Watershed Attributes and Hydrology
  17. Chemical composition of microplastics floating on the surface of the Mediterranean Sea
  18. From the Caribbean to the Arctic, the most abundant microplastic particles in the ocean have escaped detection
  19. Review of the oral toxicity of polyvinyl alcohol (PVA)
  20. EFSA: Opinion of the Scientific Panel on food additives, flavourings, processing aids and materials in contact with food (AFC) related to the use of polyvinyl alcohol as a coating agent for food supplements
  21. EPA: Denial of Requested Rulemaking (Section V, B.2)
  22. Contribution of household dishwashing to microplastic pollution
  23. A systematic review of microplastics emissions in kitchens: Understanding the links with diseases in daily life
  24. Release of Micro- and Nanosized Particles from Plastic Articles during Mechanical Dishwashing
  25. Release of primary microplastics from consumer products to wastewater in the Netherlands
  26. Human exposure to PM10 microplastics in indoor air
  27. Assessment of Toxicity and Biodegradability of Poly(vinyl alcohol)-Based Materials in Marine Water
  28. International Journal of Toxicology: Final Report On the Safety Assessment of Polyvinyl Alcohol
  29. EPA: Denial of Requested Rulemaking (Section V, B.4a and 4b)
  30. MSU CRIS: Trending – Polyvinyl Alcohol
  31. MSU CRIS: In the news – Polyvinyl Alcohol
  32. Are We Speaking the Same Language? Recommendations for a Definition and Categorization Framework for Plastic Debris
  33. EPA: Denial of Requested Rulemaking (Section V, B.2 and Section V, B.3)

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