| 1 |
Preparation and characterization of porous DVB copolymers and their applicability for adsorption (solid-phase extraction) of phenol compounds
Sobiesiak M, Podkoscielna B
Applied Surface Science, 257(4), 1222, 2010 |
| 2 |
Extension of the anaerobic digestion model No. 1 (ADM1) to include phenolic compounds biodegradation processes for the simulation of anaerobic co-digestion of olive mill wastes at thermophilic temperature
Fezzani B, Ben Cheikh R
Journal of Hazardous Materials, 162(2-3), 1563, 2009 |
| 3 |
Extension of the anaerobic digestion model No. 1 (ADM1) to include phenol compounds biodegradation processes for simulating the anaerobic co-digestion of olive mill wastes at mesophilic temperature
Fezzani B, Ben Cheikh R
Journal of Hazardous Materials, 172(2-3), 1430, 2009 |
| 4 |
Studies on the Separation Performances of Chlorophenol Compounds from Water by Thin Film Composite Membranes
Yogesh, Popat KM, Ganguly B, Brahmbhatt H, Bhattacharya A
Macromolecular Research, 16(7), 590, 2008 |
| 5 |
Sorption and diffusion of phenols onto well-defined ordered nanoporous monolithic silicas
El-Safty SA
Journal of Colloid and Interface Science, 260(1), 184, 2003 |
| 6 |
SiO2/Nb2O5 sol-gel as a support for HRP immobilization in biosensor preparation for phenol detection
Rosatto SS, Sotomayor PT, Kubota LT, Gushikem Y
Electrochimica Acta, 47(28), 4451, 2002 |
| 7 |
Development of an amperometric sensor for phenol compounds using a Nafion (R) membrane doped with copper dipyridyl complex as a biomimetic catalyst
Sotomayor MDT, Tanaka AA, Kubota LT
Journal of Electroanalytical Chemistry, 536(1-2), 71, 2002 |
