Das R, Wang X, Itoh M, Shiodera S, Kuwata M.  2019.  Estimation of Metal Emissions From Tropical Peatland Burning in Indonesia by Controlled Laboratory Experiments. Journal of Geophysical Research: Atmospheres.

Lee W-C, Chen J, Budisulistiorini S H, Itoh M, Shiodera S, Kuwata M.  2019.  Polarity-Dependent Chemical Characteristics of Water-Soluble Organic Matter from Laboratory-Generated Biomass-Burning Revealed by 1-Octanol-Water Partitioning. Environmental Science and Technology. 53(14)

Chen J, Lee W-C, Itoh M, Kuwata M.  2019.  A Significant Portion of Water-Soluble Organic Matter in Fresh Biomass Burning Particles Does Not Contribute to Hygroscopic Growth: An Application of Polarity Segregation by 1-Octanol-Water Partitioning Method. Environmental Science and Technology. 53(17):10034-10042.

Budisulistiorini S H, Riva M, Williams M, Miyakawa T, Chen J, Itoh M, Surratt JD, Kuwata M.  2018.  Dominant contribution of oxygenated organic aerosol to haze particles from real-time observation in Singapore during an Indonesian wildfire event in 2015. Atmospheric Chemistry and Physics. 18(22):16481-16498.

Budisulistiorini S H, Riva M, Williams M, Chen J, Itoh M, Surratt JD, Kuwata M.  2017.  Light-Absorbing Brown Carbon Aerosol Constituents from Combustion of Indonesian Peat and Biomass. Environmental Science and Technology. 51(8):4415-4423.

Kuwata M, Kai F M, Itoh M, Gunawan H, Harvey CF.  2017.  Temperature and burning history affect emissions of greenhouse gases and aerosol particles from tropical peatland fire. Journal of Geophysical Research: Atmospheres. 122:1218-1292.

Chen J, Budisulistiorini S H, Itoh M, Lee W-C, Miyakawa T, Komazaki Y, Yang L D Q, Kuwata M.  2017.  Water uptake by fresh Indonesian peat burning particles is limited by water-soluble organic matter. Atmospheric Chemistry and Physics. 17(18):11591-11604.