Governments and many individuals (EVangelists) promote the use of electric vehicles as the spotlessly clean solution to the global climate "crisis". One would almost think that there is absolutely no negative environmental impact to the growing and government-mandated use of electric vehicles. That said, recent research by Jennifer Guelfo et al in Nature Communications shows that there is a rarely reported environmental impact of lithium ion batteries that are used to energize the growing global fleet of electric vehicles.
The article, entitled "Lithium-ion battery components are at the nexus of sustainable energy and environmental release of per- and polyfluoroalkyl substances" examines the use of these chemicals that are released during lithium-ion battery manufacturing, usage and disposal. According to the article, lithium-ion technologies incorporate a class of per- and polyfluoroalkyl substances (PFAS) known as bis-perfluoroalkyl sulfonimides (bis-FASIs). These compounds are also used in non-stick cookware coatings, windmill coatings, semiconductors and photovoltaic cells. More to the point of this posting, ionic liquids, including the Li+ salt of bis(trifluoromethylsulfonyl)imide (bis-FMeSI), are used as a primary or secondary lithium-ion battery (LiB) electrolyte. The Li salt of bis-FMeSI is also incorporated as an anti-static agent in polyvinylidene fluoride (PVDF) composites which are used in LiBs as electrode binders and as part of the separator between the cathode and anode. Up to 96 percent of bis-FMeSI is recoverable which is wonderful, however, studies estimate that as little as 5% of LiBs are currently being recycled. Between now and 2040, the growing use of lithium-ion batteries for transportation could result in an estimated 8 million tons of LiB waste by 2040 meaning that there is potential for the widespread environmental release of per-and polyfluoroalkyl substances including bis-FMeSI during the lifecycle of lithium-ion batteries.
The authors of the study collected surface, tap and groundwater samples along with sediment and soil samples from 87 locations near Cottage Grove, Minnesota (MN), USA, Paducah and Louisville, Kentucky (KY), USA, Antwerp, Belgium, and Salindres, France between January and October of 2022. These locations were chosen because of their proximity to manufacturing facilities (3M) that produce PFAS or are located in a downstream location. It is important to note that PFAS are very mobile in aqueous environments and can move long distances from their source as was found in the samples taken for this study. In fact, these chemicals have been found in the environment all around the world, including the Arctic. Snow and soil samples used in this study exhibited significant concentrations of bis-FMeSI suggest that there is atmospheric deposition of bis-FMeSI. The authors also found that there is a potential significant end-of-life issue with lithium-ion batteries with bis-FASIs detected in untreated landfill leachate. While the source of the bis-FMeSI in the leachate cannot directly be confirmed, it is likely that increasing use and disposal of LiB technology will increase the concentration of bis-FMeSI over time.
Here is a quote from the discussion section of the paper with my bolds:
"This study demonstrates an international release of LiB-associated PFAS (bis-FASIs, particularly bis-FMeSI) to soil, sediment, and surface water and that concentrations of these compounds in the parts per billion are common, near manufacturing areas. When coupled with low-level detections in three Chinese seawater samples and characteristics consistent with vPvM classification, this suggests bis-FASI release is global. Furthermore, atmospheric emission of bis-FMeSI, as suggested by the MN data, may facilitate long-range transport of this subclass of PFAS. Toxicity data demonstrated that bis-FMeSI could change behavior and fundamental energy metabolic processes of aquatic organisms at low ng L−1 levels, suggesting that even relatively low-level concentrations will be of concern for aquatic vertebrates and invertebrates. In addition, the use of bis-FMeSI and other PFAS in LiB-enabled consumer products will lead to environmental contamination at end-of-life disposal (i.e., municipal solid waste landfills)....
In general, the challenges associated with bis-FASI occurrence, mobility, ecotoxicity, and recalcitrance are similar to those that have been realized for other PFAS; however, the potential for ongoing and increasing release of bis-FASIs resulting from exponentially growing demand for LiBs is distinct."
Let's close this rather technical posting with these thoughts. Per- and polyfluorinated alkyl substances or PFAS are a chemical family of over 10000 chemicals that do not appear in nature, they are persistent man-made (anthropogenic) chemicals which break down very, very slowly over time. This has earned them the moniker "Forever Chemicals". According to Chemtrust, the negative impact of these these chemicals can:
1.) Interfere with the reproductive system and the development of the foetus
2.) Impact the immune system and have been linked to reduced responses to vaccines in children
3.) Promote the development of certain cancers (e.g. kidney and testicular cancer)
4.) Interfere with the hormonal system (so they are called endocrine disruptors)
As noted in this posting, PFAS are found globally. Here is a map showing contamination sites across Europe to give you a sense of the scale of the problem:
In conclusion, when you hear your local politician tout the greenness of electric vehicles, keep in mind that the batteries powering these vehicles contain "forever contaminants/forever chemicals" that will have a significant negative impact on life on Planet Earth and that the growing mandated use of EVs will only worsen the problem. I would also recommend that you remember that the vast majority of politicians have absolutely no training in chemistry and the ultimate impact of their decisions on the global environment.
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