Dataset of the influence of temperature on the emissions of organophosphate flame retardants from polyisocyanurate foam: measurement and modelling. This dataset is associated with the following publication: Liang, Y., X. Liu, and M. Allen. The Influence of Temperature on the Emissions of Organophosphate Ester Flame Retardants from Polyisocyanurate Foam: Measurement and Modeling. CHEMOSPHERE. Elsevier Science Ltd, New York, NY, USA, 233: 347-354, (2019).

The data presented in this data file is a product of a journal publication. The dataset contains measurements of mass transfer, material/air, and surface/air partition coefficients and emission concentrations of OPFRs in chambers and diffusion tubes. It also contains modeling data. This dataset is associated with the following publication: Liang, Y., X. Liu, and M. Allen. Measurements of Parameters Controlling the Emissions of Organophosphate Flame Retardants in Indoor Environments. ENVIRONMENTAL SCIENCE & TECHNOLOGY. American Chemical Society, Washington, DC, USA, 5821-5829, (2018).

The data presented in this data file is a product of a journal publication. The dataset contains measurements of mass transfer, material/air, and surface/air partition coefficients and emission concentrations of OPFRs in chambers and diffusion tubes. It also contains modeling data. This dataset is associated with the following publication: Liang, Y., X. Liu, and M. Allen. Measurements of Parameters Controlling the Emissions of Organophosphate Flame Retardants in Indoor Environments. ENVIRONMENTAL SCIENCE & TECHNOLOGY. American Chemical Society, Washington, DC, USA, 5821-5829, (2018).

The data presented in this data file is a product of a journal publication. The dataset contains measured and model predicted OPFRs gas-phase and surface-phase concentrations in small and micro chambers. This dataset is associated with the following publication: Liang, Y., X. Liu, and M. Allen. Measuring and Modeling Surface Sorption Dynamics of Organophosphate Flame Retardants in Chambers. CHEMOSPHERE. Elsevier Science Ltd, New York, NY, USA, 193: 754-762, (2018).

This dataset is the result of a joint EPA-CPSC effort to catalogue flame retardant (and more specifically organohalogen flame retardant chemicals). Full details of how the data were collected, curated, and annotated as well as potential uses of this dataset are detailed in the Scientific Data publication: Development of a Flame Retardant and an Organohalogen Flame Retardant Chemical Inventory (https://doi.org/10.1038/s41597-022-01351-0). This dataset is associated with the following publication: Bevington, C., A. Williams, C. Guider, N. Baker, B. Meyer, M. Babich, S. Robinson, A. Jones, and K. Phillips. Development of a Flame Retardant and an Organohalogen Flame Retardant Chemical Inventory. Scientific Data. Springer Nature, New York, NY, 9: 295, (2022).

This dataset is the result of a joint EPA-CPSC effort to catalogue flame retardant (and more specifically organohalogen flame retardant chemicals). Full details of how the data were collected, curated, and annotated as well as potential uses of this dataset are detailed in the Scientific Data publication: Development of a Flame Retardant and an Organohalogen Flame Retardant Chemical Inventory (https://doi.org/10.1038/s41597-022-01351-0). This dataset is associated with the following publication: Bevington, C., A. Williams, C. Guider, N. Baker, B. Meyer, M. Babich, S. Robinson, A. Jones, and K. Phillips. Development of a Flame Retardant and an Organohalogen Flame Retardant Chemical Inventory. Scientific Data. Springer Nature, New York, NY, 9: 295, (2022).

The data presented in this data file is a product of a journal publication. The dataset contains OPFR sorption concentrations on building materials and consumer products and comparison to the i-SVOC model predictions. This dataset is associated with the following publication: Liu , X., M. Allen, and N. Roache. Characterization of organophosphorus flame retardants' sorption on building materials and consumer products. ATMOSPHERIC ENVIRONMENT. Elsevier Science Ltd, New York, NY, USA, 140: 333-341, (2016).

To link health benefits derived from advanced CS usage to increasing combustion efficiencies of the cookstove, a wide variety of general health and respiratory system parameters that are often altered acutely following exposure to air pollutants were assessed. The figures and tables reflect the health outcomes. This dataset is associated with the following publication: Gibbs-Flournoy, E., I. Gilmour, M. Higuchi, J. Jetter, I. George, L. Copeland, R. Harrison, V. Moser, and J. Dye. Differential exposure and acute health impacts of inhaled solid-fuel emissions from rudimentary and advanced cookstoves in female CD-1 mice.. ENVIRONMENTAL RESEARCH. Academic Press Incorporated, Orlando, FL, USA, 161: 35-48, (2018).

To link health benefits derived from advanced CS usage to increasing combustion efficiencies of the cookstove, a wide variety of general health and respiratory system parameters that are often altered acutely following exposure to air pollutants were assessed. The figures and tables reflect the health outcomes. This dataset is associated with the following publication: Gibbs-Flournoy, E., I. Gilmour, M. Higuchi, J. Jetter, I. George, L. Copeland, R. Harrison, V. Moser, and J. Dye. Differential exposure and acute health impacts of inhaled solid-fuel emissions from rudimentary and advanced cookstoves in female CD-1 mice.. ENVIRONMENTAL RESEARCH. Academic Press Incorporated, Orlando, FL, USA, 161: 35-48, (2018).