Uwe Schröder
Anodic
Electron Transfer Mechanisms in Microbial Fuel Cells and their Energy
Efficiency
Physical Chemistry Chemical Physics (Invited Article) 9 (2007) 2619 -
2629
Rosenbaum,
M.; Zhao, F.;Quaas, M.; Wulff, H. Schröder, U.*; Scholz, F.
Evaluation
of Catalytic Properties of Tungsten Carbide for the Anode of Microbial
Fuel Cells
Applied Catalysis B – Environmental 74 (2007) 262-270
Rosenbaum, M.; Zhao, F.; Schröder, U.*; Scholz,
F.
Interfacing
Electrocatalysis and Biocatalysis using Tungsten Carbide: A High Performance
Noble-Metal-Free Microbial Fuel Cell
Angewandte Chemie 118 (2006) 6810-6813, Angewandte Chem. int. Ed. 45 (2006)
6658-6661
Zhao, F.;
Harnisch, F.; Schröder, U.*; Scholz, F.; Bogdanoff, P.; Herrmann,
I.
Constraints
and Challenges of Using Oxygen Cathodes in Microbial Fuel Cells
Environ. Sci. Technol. 2006, 40, (17), 5191-5199.
Logan, B.
E.*; Hamelers, B.; Rozendal, R.; Schröder, U.; Keller, J.; Freguia,
S.; Aelterman, P.; Verstraete, W.; Rabaey, K.
Microbial
Fuel Cells: Methodology and Technology
Environ. Sci. Technol. 2006 40, (17), 5181-5191
Rosenbaum,
M.; Schröder, U.*; Scholz, F.
Electrocatalytic
oxidation of formate and ethanol at platinum black under microbial fuel
cell conditions
J. Solid State Electrochem. 2006 10, 872-878.
Juliane
Niessen, Falk Harnisch, Miriam Rosenbaum, Uwe Schröder*, Fritz Scholz
Heat
Treated Soil as Convenient and Versatile Source of Bacterial Communities
for Microbial Electricity Generation
Electrochem. Comm. 8 (2006) 869-873
Feng Zhao, Falk Harnisch, Uwe Schröder*, Fritz Scholz,
Peter Bogdanoff, Iris Herrmann
Application
of pyrolysed iron(II) phthalocyanine and CoTMPP based oxygen reduction
catalysts as cathode materials in microbial fuel cells
Electrochem. Commun. 7 (2005) 1405–1410
Utilizing the Green Alga Chlamydomonas reinhardtii for Microbial Electricity Generation: A Living Solar Cell
Appl. Microbiol. Biotechnol. 68 (2005) 753-756
Miriam
Rosenbaum, Uwe Schröder*, and Fritz Scholz
In Situ Electrooxidation
of Photobiological Hydrogen in a Photobioelectrochemical Fuel Cell Based
on Rhodobacter sphaeroides
Environ. Sci. Technol., 39 (2005) 6328 -6333
Uwe Schröder*,
Miriam Rosenbaum, Juliane Niessen, Falk Harnisch, Fritz Scholz
Biological fuel cells exploiting the in situ oxidation of hydrogen synthesized
via heterotrophic, photoheterotrophic and photosynthetic microbiological
activity
Preprints of Symposia - American Chemical Society, Division of Fuel Chemistry
50 (2005) 713-714
Juliane
Niessen, Uwe Schröder*, Falk Harnisch, Fritz Scholz
Gaining
Electricity from in situ oxidation of hydrogen produced by fermentative
cellulose degradation
Letters in Applied Microbiology 41 (2005) 286–290
Juliane
Niessen, Uwe Schröder*, Fritz Scholz
Exploiting
complex carbohydrates for microbial electricity generation – a bacterial
battery operating on starch
Electrochem. Commun. 6 (2004) 955-958
Juliane
Niessen, Uwe Schröder*, Miriam Rosenbaum, Fritz Scholz
Fluorinated
Polyanilines as Superior Materials for Electrocatalytic Anodes in Bacterial
Fuel Cells
Electrochem. Commun. 6 (2004) 571-575
Fritz
Scholz, Uwe Schröder
Bacterial
Batteries (News and Views)
Nature Biotechnology, 21 (2003) 1151-1152
Uwe Schröder*,
Juliane Nießen, Fritz Scholz
A generation
of microbial fuel cells with current outputs boosted by more than one order
of magnitude
Angewandte Chemie 115 (2003) 2986-2989, Angewandte Chem. int.edn 42 (2003)
2880-2883
Uwe Schröder*,
Juliane Nießen, Fritz Scholz
Patent: „Mikrobielle Brennstoffzellen auf der Basis elektrokatalytisch
aktiver Anoden“, "Microbial fuel cell and procedure for the production
of electric current "
Patent Number: DE10315792, Publication date: 2004-11-04
