Publications

(2020). Scaling law of Brownian rotation in dense hard-rod suspensions. Physical Review E.

DOI

(2020). A scalable computational platform for particulate Stokes suspensions. Journal of Computational Physics.

DOI

(2019). Complex Dynamics of Long, Flexible Fibers in Shear. Journal of Non-Newtonian Fluid Mechanics.

DOI

(2019). Computing Collision Stress in Assemblies of Active Spherocylinders: Applications of a Fast and Generic Geometric Method. The Journal of Chemical Physics.

DOI

(2018). Universal Image Systems for Non-Periodic and Periodic Stokes Flows above a No-Slip Wall. Journal of Computational Physics.

DOI

(2018). Anisotropic Swim Stress in Active Matter with Nematic Order. New Journal of Physics.

DOI

(2018). Flexibly Imposing Periodicity in Kernel Independent FMM: A Multipole-to-Local Operator Approach. Journal of Computational Physics.

DOI

(2018). The Curved Kinetic Boundary Layer of Active Matter. Soft Matter.

DOI

(2017). Connecting Macroscopic Dynamics with Microscopic Properties in Active Microtubule Network Contraction. New Journal of Physics.

DOI

(2016). The Behavior of Active Diffusiophoretic Suspensions: An Accelerated Laplacian Dynamics Study. The Journal of Chemical Physics.

DOI

(2015). The Force on a Boundary in Active Matter. Journal of Fluid Mechanics.

DOI

(2015). The Swim Force as a Body Force. Soft Matter.

DOI

(2014). Swim Pressure: Stress Generation in Active Matter. Physical Review Letters.

DOI

(2012). Effect of Size-Dependent Grain Structures on the Dynamics of Nanoparticle Coalescence. Journal of Applied Physics.

DOI

(2011). Nanoparticle Transport and Deposition in Boundary Layer of Stagnation-Point Premixed Flames. Powder Technology.

DOI

(2011). Role of Dipole–Dipole Interaction on Enhancing Brownian Coagulation of Charge-Neutral Nanoparticles in the Free Molecular Regime. The Journal of Chemical Physics.

DOI

(2010). Synthesis of TiO2 Nanoparticles by Premixed Stagnation Swirl Flames. Proceedings of the Combustion Institute.

DOI

(2010). Effects of Dipole Moment and Temperature on the Interaction Dynamics of Titania Nanoparticles during Agglomeration. The Journal of Physical Chemistry C.

DOI