| 1 |
Comparison of three analytical methods to measure the size of silver nanoparticles in real environmental water and wastewater samples
Chang YJ, Shih YH, Su CH, Ho HC
Journal of Hazardous Materials, 322, 95, 2017 |
| 2 |
Flow induced conformational transitions of macromolecules and their effect on chromatographic separations
Kurganov AA, Svec F, Kanateva AY
Polymer, 60, A1, 2015 |
| 3 |
A new approach to the studies of submicron particle suspensions based on the effect of pressure in capillary zone electrophoresis
Vanifatova N, Rudnev A, Spivakov B
Electrophoresis, 34(15), 2145, 2013 |
| 4 |
Micro-thermal field-flow fractionation: new high-performance method for particle size distribution analysis
Janca J, Berneron JF, Boutin R
Journal of Colloid and Interface Science, 260(2), 317, 2003 |
| 5 |
Comparison of methods for the determination of diffusion coefficients of polymers in dilute solutions: The influence of polydispersity
Mes EPC, Kok WT, Poppe H, Tijssen R
Journal of Polymer Science Part B: Polymer Physics, 37(6), 593, 1999 |
| 6 |
Model-Independent Aspects of Field-Flow Fractionation Theory
Buffham BA
Journal of Colloid and Interface Science, 181(2), 490, 1996 |
| 7 |
Intraparticle flow and plate height effects in liquid chromatography stationary phases
Hamaker KH, Ladisch MR
Separation and Purification Methods, 25(1), 47, 1996 |
| 8 |
Prevention of Particle Deposition in Cross-Flow Microfiltration
Buffham BA, Cumming IW
Chemical Engineering Research & Design, 73(4), 445, 1995 |
| 9 |
Boundary-Element Analysis of Particle Mobilities in a Cylindrical Channel - Network-Based Parallel Computing with Condor
Yang H, Kim S
Computers & Chemical Engineering, 19(6-7), 683, 1995 |
| 10 |
Electrokinetic Effects on Fractionation of Colloidal Particles by Capillary-Flow
Han SP, Chun JH, Yang SM
Journal of Chemical Engineering of Japan, 28(6), 738, 1995 |
