Emission of volatile organic compounds (VOCs) from materials in vehicle cabins is one of the main reasons for poor in-cabin air quality. The emission behaviors can be characterized by key parameters including the initial emittable concentration (C-0) and the diffusion coefficient (D-m). Determination of these parameters provides a foundation for predicting emissions and evaluating driver and passenger exposures. By analyzing VOC emissions from in-cabin materials under ventilated conditions, we propose a novel method to simultaneously determine C-0 and D-m. This method initially establishes a linear correlation between the logarithm of excess VOC concentration and emission time, then the key parameters C-0 and D-m are obtained by linear curve fitting and solving two equations. Using this method we determined the C-0 and D-m for five VOCs (benzene, toluene, p-xylene, ethylbenzene and styrene) emitted from a common in-cabin material under different environmental conditions. Good agreement between the predicted VOC concentrations based on the measured key parameters and experimental data demonstrates the effectiveness of this method. Moreover, the impact of temperature on C-0 was investigated for the five VOCs. Results indicated that C-0 of all the studied VOCs increased with an increase in temperature, and toluene showed the greatest increase. When the temperature increased from 25 degrees C to 50 degrees C at the relative humidity of 50%, the C-0 of toluene increased by 1.07 fold. (C) 2017 Elsevier Ltd. All rights reserved.