Data from: Particle dynamics of nanoplastics suspended in water with soil microparticles: Insights from small angle neutron scattering (SANS) and ultra-SANS

Small-angle neutron scattering (SANS) and Ultra-SANS (USANS) were employed to understand the agglomeration behavior of nanoplastics (NPs) formed from a biodegradable mulch film, and microparticles of vermiculite (V), an artificial soil, suspended in water in the presence of low convective shear (ex-situ stirring) prior to measurements. Neutron contrast matching was employed to minimize the signal of V (by 100-fold) and thereby isolate the signal due to NPs in the neutron beam, as the contrast match point (CMP) for V (67 vol% deuteration in water) differed from that of NPs by more than 20%. The original NPs’ size distribution was bimodal: 2O, even with nanosized V particles contributing toward scattered intensity for the latter solvent, it is evident that SNPs and LNPs are mainly composed of NPs and not V. The results suggest that LNPs are susceptible to size reduction through collisions with soil microparticles via convection, yielding SNPs near soil-water interfaces within vadose zones.