| 1 |
Correlate between morphology of powder particles obtained by the different regimes of electrolysis and the quantity of evolved hydrogen
Nikolic ND, Brankovic G, Pavlovic MG
Powder Technology, 221, 271, 2012 |
| 2 |
Velocity measurements inside the concentration boundary layer during copper-magneto-electrolysis using a novel laser Doppler profile sensor
Konig J, Muhlenhoff S, Eckert K, Buttner L, Odenbach S, Czarske J
Electrochimica Acta, 56(17), 6150, 2011 |
| 3 |
A copper electrolysis cell model including effects of the ohmic potential loss in the cell
Pohjoranta A, Mendelson A, Tenno R
Electrochimica Acta, 55(3), 1001, 2010 |
| 4 |
A computational multi-reaction model of a Cu electrolysis cell
Pohjoranta A, Tenno R
Electrochimica Acta, 54(24), 5949, 2009 |
| 5 |
On the decay of the Lorentz-force-driven convection in vertical concentration stratification during magnetoelectrolysis
Yang XG, Eckert K, Muhlenhoff S, Odenbach S
Electrochimica Acta, 54(27), 7056, 2009 |
| 6 |
The start-up of natural convection during copper electrolysis in the presence of an opposing Lorentz force
Yang XG, Eckert K, Seidel K, Uhlemann M
Electrochimica Acta, 54(2), 352, 2008 |
| 7 |
The concentration field during transient natural convection between vertical electrodes in a small-aspect-ratio cell
Yang X, Eckert K, Heinze A, Uhlemann M
Journal of Electroanalytical Chemistry, 613(1), 97, 2008 |
| 8 |
Morphologies of electrochemically formed copper powder particles and their dependence on the quantity of evolved hydrogen
Nikolic ND, Pavlovic LJ, Pavlovic MG, Popov KI
Powder Technology, 185(3), 195, 2008 |
| 9 |
Controlled retardation of electrochemical Rayleigh-Benard convection during copper electrolysis
Muhlenhoff S, Eckert K, Heinze A, Uhlemann M
Journal of Electroanalytical Chemistry, 611(1-2), 241, 2007 |
| 10 |
Production of ultrahigh purity copper using waste copper nitrate solution
Choi JY, Kim DS
Journal of Hazardous Materials, 99(2), 147, 2003 |
