Formaldehyde releasers are widely employed in household cleaning products as preservatives and biocidal agents, emerging as indirect sources of formaldehyde in indoor environments. Despite their prevalence, knowledge regarding their occurrence, degradation pathways, and contribution to indoor formaldehyde exposure remains scattered. This review synthesizes current understanding of formaldehyde releasers in household products, focusing on major global regulatory frameworks, chemical properties, modes of action, and associated analytical challenges. Bronopol, the most frequently encountered releaser in cleaning products, illustrates the dual role of these compounds: it exhibits direct biocidal activity and releases formaldehyde through degradation in aqueous media, a process influenced by pH, temperature, and the presence of other formulation components. Analytical methods, allow quantification of releasers and some degradation products, yet no method enables simultaneous, accurate measurement of both releasers and the formaldehyde released, limiting the characterization of emission kinetics. Experimental data on indoor formaldehyde emissions from household products are extremely limited; available studies indicate rapid initial release followed by quasi-steady emissions, demonstrating potential for long-term indoor exposure. Key knowledge gaps remain regarding the relationship between releaser concentration, degradation dynamics, and actual emissions in realistic use scenarios, including the fate of releasers on surfaces and their multi-phasic behaviour, based on specific analytical developments. Addressing these gaps is critical to evaluate exposure risks, guide regulatory strategies, and inform the development of safer household formulations. This review highlights the urgent need for integrated analytical and experimental approaches to quantify and understand the indoor impact of formaldehyde releasers.
Thévenet et al. (Sun,) studied this question.