TY - JOUR
KW - Formaldehyde
KW - Aerosols
KW - Carbonyls
KW - E-cigarettes
KW - MODs
KW - Sub-ohm
AU - Lucia Cancelada
AU - Xiaochen Tang
AU - Marion L Russell
AU - Randy L Maddalena
AU - Marta I Litter
AU - Lara A Gundel
AU - Hugo Destaillats
AB - <p>“Sub-ohm” atomizers with reduced resistance can deliver more power than conventional electronic cigarettes.<br />Typical battery outputs are 100 W or more. These devices are particularly popular among young users, and can<br />be a significant source of volatile carbonyls in the indoor environment. Emissions from next-generation sub-ohm<br />vaping products were characterized by determining e-liquid consumption and volatile aldehydes emissions for<br />several combinations of popular high-power configurations. Tests explored the effect of dilution air flow (air vent<br />opening), puffing volume, and coil assembly configuration.</p>
BT - Environmental Research
DA - 04/2021
DO - https://doi.org/10.1016/j.envres.2021.111188
LA - eng
N2 - <p>“Sub-ohm” atomizers with reduced resistance can deliver more power than conventional electronic cigarettes.<br />Typical battery outputs are 100 W or more. These devices are particularly popular among young users, and can<br />be a significant source of volatile carbonyls in the indoor environment. Emissions from next-generation sub-ohm<br />vaping products were characterized by determining e-liquid consumption and volatile aldehydes emissions for<br />several combinations of popular high-power configurations. Tests explored the effect of dilution air flow (air vent<br />opening), puffing volume, and coil assembly configuration.</p>
PY - 2021
T2 - Environmental Research
TI - Volatile aldehyde emissions from “sub-ohm” vaping devices
UR - https://www.sciencedirect.com/science/article/abs/pii/S0013935121004825?via%3Dihub
VL - 197
ER -