1 |
Strategies and Technologies to Increase the Efficiency of Raw Material Use Jorissen J, Schippl J, Weinberger N Chemie Ingenieur Technik, 82(11), 1903, 2010 |
2 |
Chlor-alkali electrolysis with oxygen depolarized cathodes: history, present status and future prospects Moussallem I, Jorissen J, Kunz U, Pinnow S, Turek T Journal of Applied Electrochemistry, 38(9), 1177, 2008 |
3 |
Electrochemical detoxification of waste water without additives using solid polymer electrolyte (SPE) technology Heyl A, Jorissen J Journal of Applied Electrochemistry, 36(11), 1281, 2006 |
4 |
Electrochemical procedure - New developments and tendencies Hoormann D, Jorissen J, Putter H Chemie Ingenieur Technik, 77(9), 1363, 2005 |
5 |
Recovery of chlorine from dilute hydrochloric acid by electrolysis using a chlorine resistant anion exchange membrane Barmashenko V, Jorissen J Journal of Applied Electrochemistry, 35(12), 1311, 2005 |
6 |
Electro-organic synthesis without supporting electrolyte: Possibilities of solid polymer electrolyte technology Jorissen J Journal of Applied Electrochemistry, 33(10), 969, 2003 |
7 |
Ion transport in anion exchange membranes in presence of multivalent anions like sulfate or phosphate Jorissen J, Breiter SM, Funk C Journal of Membrane Science, 213(1-2), 247, 2003 |
8 |
Analysis and minimization of cell voltage in electro-organic syntheses using the solid polymer electrolyte technology Hoormann D, Kubon C, Jorissen J, Kroner L, Putter H Journal of Electroanalytical Chemistry, 507(1-2), 215, 2001 |
9 |
Recycling of sodium sulfate by high temperature metathesis with hydrogen chloride Hoppe CF, Jorissen J Chemical Engineering & Technology, 21(2), 165, 1998 |
10 |
Recycling of sodium sulphate by high temperature metathesis with hydrogen chloride Hoppe CF, Jorissen J Chemie Ingenieur Technik, 70(3), 301, 1998 |