-
1
-
-
73649114735
-
-
Eds. IWA Publishing: London, New York
-
Bioelectrochemical systems: from extracellular electron transfer to biotechnological application; Rabaey, K., Angenent, L., Schroder, U., Eds.; IWA Publishing: London, New York, 2010.
-
(2010)
Bioelectrochemical Systems: From Extracellular Electron Transfer to Biotechnological Application
-
-
Rabaey, K.1
Angenent, L.2
Schroder, U.3
-
2
-
-
64749084426
-
Exoelectrogenic bacteria that power microbial fuel cells
-
Logan, B. E. Exoelectrogenic bacteria that power microbial fuel cells Nat. Rev. Microbiol. 2009, 7 (5) 375-381
-
(2009)
Nat. Rev. Microbiol.
, vol.7
, Issue.5
, pp. 375-381
-
-
Logan, B.E.1
-
3
-
-
34447523820
-
Anodic electron transfer mechanisms in microbial fuel cells and their energy efficiency
-
Schroder, U. Anodic electron transfer mechanisms in microbial fuel cells and their energy efficiency Phys. Chem. Chem. Phys. 2007, 9 (21) 2619-2629
-
(2007)
Phys. Chem. Chem. Phys.
, vol.9
, Issue.21
, pp. 2619-2629
-
-
Schroder, U.1
-
4
-
-
79952280859
-
An overview of electrode materials in microbial fuel cells
-
Zhou, M. H.; Chi, M. L.; Luo, J. M.; He, H. H.; Jin, T. An overview of electrode materials in microbial fuel cells J. Power Sources 2011, 196 (10) 4427-4435
-
(2011)
J. Power Sources
, vol.196
, Issue.10
, pp. 4427-4435
-
-
Zhou, M.H.1
Chi, M.L.2
Luo, J.M.3
He, H.H.4
Jin, T.5
-
5
-
-
34447285505
-
A state of the art review on microbial fuel cells: A promising technology for wastewater treatment and bioenergy
-
Du, Z. W.; Li, H. R.; Gu, T. Y. A state of the art review on microbial fuel cells: A promising technology for wastewater treatment and bioenergy Biotechnol. Adv. 2007, 25 (5) 464-482
-
(2007)
Biotechnol. Adv.
, vol.25
, Issue.5
, pp. 464-482
-
-
Du, Z.W.1
Li, H.R.2
Gu, T.Y.3
-
6
-
-
79951523867
-
Laboratory and field tests using microbial electrolysis cells for hydrogen production from agricultural and domestic wastewaters
-
Logan, B. E.; Cusick, R.; Merrill, M. D.; Cheng, S. A.; Bryan, B.; Parker, D. S. Laboratory and field tests using microbial electrolysis cells for hydrogen production from agricultural and domestic wastewaters Abstr. Pap. Am. Chem. Soc. 2010, 239
-
(2010)
Abstr. Pap. Am. Chem. Soc.
, pp. 239
-
-
Logan, B.E.1
Cusick, R.2
Merrill, M.D.3
Cheng, S.A.4
Bryan, B.5
Parker, D.S.6
-
7
-
-
76849084828
-
Scaling up microbial fuel cells and other bioelectrochemical systems
-
Logan, B. E. Scaling up microbial fuel cells and other bioelectrochemical systems Appl. Microbiol. Biotechnol. 2010, 85 (6) 1665-1671
-
(2010)
Appl. Microbiol. Biotechnol.
, vol.85
, Issue.6
, pp. 1665-1671
-
-
Logan, B.E.1
-
8
-
-
77957583742
-
Improved performance of membrane free single-chamber air-cathode microbial fuel cells with nitric acid and ethylenediamine surface modified activated carbon fiber felt anodes
-
Zhu, N. W.; Chen, X.; Zhang, T.; Wu, P. X.; Li, P.; Wu, J. H. Improved performance of membrane free single-chamber air-cathode microbial fuel cells with nitric acid and ethylenediamine surface modified activated carbon fiber felt anodes Bioresour. Technol. 2011, 102 (1) 422-426
-
(2011)
Bioresour. Technol.
, vol.102
, Issue.1
, pp. 422-426
-
-
Zhu, N.W.1
Chen, X.2
Zhang, T.3
Wu, P.X.4
Li, P.5
Wu, J.H.6
-
9
-
-
33847607418
-
High hydrogen yield from renewable resources using an improved beamr system
-
Cheng, S. A.; Logan, B. E. High hydrogen yield from renewable resources using an improved beamr system Electrochem. Commun. 2007, 9 (3) 492-496
-
(2007)
Electrochem. Commun.
, vol.9
, Issue.3
, pp. 492-496
-
-
Cheng, S.A.1
Logan, B.E.2
-
10
-
-
69549128558
-
Use of carbon mesh anodes and the effect of different pretreatment methods on power production in microbial fuel cells
-
Wang, X.; Cheng, S. A.; Feng, Y. J.; Merrill, M. D.; Saito, T.; Logan, B. E. Use of carbon mesh anodes and the effect of different pretreatment methods on power production in microbial fuel cells Environ. Sci. Technol. 2009, 43 (17) 6870-6874
-
(2009)
Environ. Sci. Technol.
, vol.43
, Issue.17
, pp. 6870-6874
-
-
Wang, X.1
Cheng, S.A.2
Feng, Y.J.3
Merrill, M.D.4
Saito, T.5
Logan, B.E.6
-
11
-
-
80052373256
-
Power production enhancement with a polyaniline modified anode in microbial fuel cells
-
Lai, B.; Tang, X. H.; Li, H. R.; Du, Z. W.; Liu, X. W.; Zhang, Q. Power production enhancement with a polyaniline modified anode in microbial fuel cells Biosens. Bioelectron. 2011, 28 (1) 373-377
-
(2011)
Biosens. Bioelectron.
, vol.28
, Issue.1
, pp. 373-377
-
-
Lai, B.1
Tang, X.H.2
Li, H.R.3
Du, Z.W.4
Liu, X.W.5
Zhang, Q.6
-
12
-
-
78650803481
-
Electrochemical treatment of graphite to enhance electron transfer from bacteria to electrodes
-
Tang, X. H.; Guo, K.; Li, H. R.; Du, Z. W.; Tian, J. L. Electrochemical treatment of graphite to enhance electron transfer from bacteria to electrodes Bioresour. Technol. 2011, 102 (3) 3558-3560
-
(2011)
Bioresour. Technol.
, vol.102
, Issue.3
, pp. 3558-3560
-
-
Tang, X.H.1
Guo, K.2
Li, H.R.3
Du, Z.W.4
Tian, J.L.5
-
13
-
-
74549204716
-
Application of multi-walled carbon nanotubes to enhance anodic performance of an Enterobacter cloacae-based fuel cell
-
Nambiar, S.; Togo, C. A.; Limson, J. L. Application of multi-walled carbon nanotubes to enhance anodic performance of an Enterobacter cloacae-based fuel cell Afr. J. Biotechnol. 2009, 8 (24) 6927-6932
-
(2009)
Afr. J. Biotechnol.
, vol.8
, Issue.24
, pp. 6927-6932
-
-
Nambiar, S.1
Togo, C.A.2
Limson, J.L.3
-
14
-
-
0033828608
-
Electricity production in biofuel cell using modified graphite electrode with Neutral Red
-
Park, D. H.; Kim, S. K.; Shin, I. H.; Jeong, Y. J. Electricity production in biofuel cell using modified graphite electrode with Neutral Red Biotechnol. Lett. 2000, 22 (16) 1301-1304
-
(2000)
Biotechnol. Lett.
, vol.22
, Issue.16
, pp. 1301-1304
-
-
Park, D.H.1
Kim, S.K.2
Shin, I.H.3
Jeong, Y.J.4
-
15
-
-
80052365896
-
Graphite anode surface modification with controlled reduction of specific aryl diazonium salts for improved microbial fuel cells power output
-
Picot, M.; Lapinsonniere, L.; Rothballer, M.; Barriere, F. Graphite anode surface modification with controlled reduction of specific aryl diazonium salts for improved microbial fuel cells power output Biosens. Bioelectron. 2011, 28 (1) 181-188
-
(2011)
Biosens. Bioelectron.
, vol.28
, Issue.1
, pp. 181-188
-
-
Picot, M.1
Lapinsonniere, L.2
Rothballer, M.3
Barriere, F.4
-
16
-
-
46949111307
-
Advances in interfacial design sensors: Aryl diazonium salts for electrochemical biosensors and for modifying carbon and metal electrodes
-
Gooding, J. J. Advances in interfacial design sensors: Aryl diazonium salts for electrochemical biosensors and for modifying carbon and metal electrodes Electroanalysis 2008, 20 (6) 573-582
-
(2008)
Electroanalysis
, vol.20
, Issue.6
, pp. 573-582
-
-
Gooding, J.J.1
-
17
-
-
79959418704
-
Aryl diazonium salts: A new class of coupling agents for bonding polymers, biomacromolecules and nanoparticles to surfaces
-
Mahouche-Chergui, S.; Gam-Derouich, S.; Mangeney, C.; Chehimi, M. M. Aryl diazonium salts: A new class of coupling agents for bonding polymers, biomacromolecules and nanoparticles to surfaces Chem. Soc. Rev. 2011, 40 (7) 4143-4166
-
(2011)
Chem. Soc. Rev.
, vol.40
, Issue.7
, pp. 4143-4166
-
-
Mahouche-Chergui, S.1
Gam-Derouich, S.2
Mangeney, C.3
Chehimi, M.M.4
-
18
-
-
77957345664
-
Effect of nitrogen addition on the performance of microbial fuel cell anodes
-
Saito, T.; Mehanna, M.; Wang, X.; Cusick, R. D.; Feng, Y. J.; Hickner, M. A.; Logan, B. E. Effect of nitrogen addition on the performance of microbial fuel cell anodes Bioresour. Technol. 2011, 102 (1) 395-398
-
(2011)
Bioresour. Technol.
, vol.102
, Issue.1
, pp. 395-398
-
-
Saito, T.1
Mehanna, M.2
Wang, X.3
Cusick, R.D.4
Feng, Y.J.5
Hickner, M.A.6
Logan, B.E.7
-
19
-
-
84874996587
-
Phenylboronic acid modified anodes promote faster biofilm adhesion and increase microbial fuel cell performances
-
LapinsonnieÌre, L.; Picot, M.; Poriel, C.; BarrieÌre, F. Phenylboronic acid modified anodes promote faster biofilm adhesion and increase microbial fuel cell performances Electroanalysis 2013, 25 (3) 601-605
-
(2013)
Electroanalysis
, vol.25
, Issue.3
, pp. 601-605
-
-
Lapinsonnieìre, L.1
Picot, M.2
Poriel, C.3
Barrieìre, F.4
-
20
-
-
77951456469
-
A comparative study of the modification of gold and glassy carbon surfaces with mixed layers of in situ generated aryl diazonium compounds
-
Liu, G. Z.; Chockalingham, M.; Khor, S. M.; Gui, A. L.; Gooding, J. J. A comparative study of the modification of gold and glassy carbon surfaces with mixed layers of in situ generated aryl diazonium compounds Electroanalysis 2010, 22 (9) 918-926
-
(2010)
Electroanalysis
, vol.22
, Issue.9
, pp. 918-926
-
-
Liu, G.Z.1
Chockalingham, M.2
Khor, S.M.3
Gui, A.L.4
Gooding, J.J.5
-
21
-
-
84861897508
-
Study of the mechanism of catalytic activity of G. sulfurreducens biofilm anodes during biofilm growth
-
Strycharz-Glaven, S. M.; Tender, L. M. Study of the mechanism of catalytic activity of G. sulfurreducens biofilm anodes during biofilm growth ChemSusChem 2012, 5 (6) 1106-1118
-
(2012)
ChemSusChem
, vol.5
, Issue.6
, pp. 1106-1118
-
-
Strycharz-Glaven, S.M.1
Tender, L.M.2
-
22
-
-
19444374840
-
Continuous microbial fuel cells convert carbohydrates to electricity
-
Rabaey, K.; Ossieur, W.; Verhaege, M.; Verstraete, W. Continuous microbial fuel cells convert carbohydrates to electricity Water Sci. Technol. 2005, 52 (1-2) 515-523
-
(2005)
Water Sci. Technol.
, vol.52
, Issue.12
, pp. 515-523
-
-
Rabaey, K.1
Ossieur, W.2
Verhaege, M.3
Verstraete, W.4
-
23
-
-
84872663891
-
Spatial uniformity of microbial diversity in a continuous bioelectrochemical system
-
Dennis, P. G.; Guo, K.; Imelfort, M.; Jensen, P.; Tyson, G. W.; Rabaey, K. Spatial uniformity of microbial diversity in a continuous bioelectrochemical system Bioresour. Technol. 2012, 129C, 599-605
-
(2012)
Bioresour. Technol.
, vol.129
, pp. 599-605
-
-
Dennis, P.G.1
Guo, K.2
Imelfort, M.3
Jensen, P.4
Tyson, G.W.5
Rabaey, K.6
-
24
-
-
0000940317
-
Fluorescently labelled, rRNA-targeted oligonucleotide probes in the study of microbial ecology
-
Amann, R. I. Fluorescently labelled, rRNA-targeted oligonucleotide probes in the study of microbial ecology Mol. Ecol. 1995, 4 (5) 543-554
-
(1995)
Mol. Ecol.
, vol.4
, Issue.5
, pp. 543-554
-
-
Amann, R.I.1
-
25
-
-
77951498638
-
Experimental factors affecting PCR-based estimates of microbial species richness and evenness
-
Engelbrektson, A.; Kunin, V.; Wrighton, K. C.; Zvenigorodsky, N.; Chen, F.; Ochman, H.; Hugenholtz, P. Experimental factors affecting PCR-based estimates of microbial species richness and evenness ISME J. 2010, 4 (5) 642-647
-
(2010)
ISME J.
, vol.4
, Issue.5
, pp. 642-647
-
-
Engelbrektson, A.1
Kunin, V.2
Wrighton, K.C.3
Zvenigorodsky, N.4
Chen, F.5
Ochman, H.6
Hugenholtz, P.7
-
26
-
-
77952243141
-
QIIME allows analysis of high-throughput community sequencing data
-
Caporaso, J. G.; Kuczynski, J.; Stombaugh, J.; Bittinger, K.; Bushman, F. D.; Costello, E. K.; Fierer, N.; Pena, A. G.; Goodrich, J. K.; Gordon, J. I.; Huttley, G. A.; Kelley, S. T.; Knights, D.; Koenig, J. E.; Ley, R. E.; Lozupone, C. A.; McDonald, D.; Muegge, B. D.; Pirrung, M.; Reeder, J.; Sevinsky, J. R.; Tumbaugh, P. J.; Walters, W. A.; Widmann, J.; Yatsunenko, T.; Zaneveld, J.; Knight, R. QIIME allows analysis of high-throughput community sequencing data Nat. Methods 2010, 7 (5) 335-336
-
(2010)
Nat. Methods
, vol.7
, Issue.5
, pp. 335-336
-
-
Caporaso, J.G.1
Kuczynski, J.2
Stombaugh, J.3
Bittinger, K.4
Bushman, F.D.5
Costello, E.K.6
Fierer, N.7
Pena, A.G.8
Goodrich, J.K.9
Gordon, J.I.10
Huttley, G.A.11
Kelley, S.T.12
Knights, D.13
Koenig, J.E.14
Ley, R.E.15
Lozupone, C.A.16
McDonald, D.17
Muegge, B.D.18
Pirrung, M.19
Reeder, J.20
Sevinsky, J.R.21
Tumbaugh, P.J.22
Walters, W.A.23
Widmann, J.24
Yatsunenko, T.25
Zaneveld, J.26
Knight, R.27
more..
-
27
-
-
79961181125
-
UCHIME improves sensitivity and speed of chimera detection
-
Edgar, R. C.; Haas, B. J.; Clemente, J. C.; Quince, C.; Knight, R. UCHIME improves sensitivity and speed of chimera detection Bioinformatics 2011, 27 (16) 2194-2200
-
(2011)
Bioinformatics
, vol.27
, Issue.16
, pp. 2194-2200
-
-
Edgar, R.C.1
Haas, B.J.2
Clemente, J.C.3
Quince, C.4
Knight, R.5
-
28
-
-
84860353306
-
Fast, accurate error-correction of amplicon pyrosequences using Acacia
-
Bragg, L.; Stone, G.; Imelfort, M.; Hugenholtz, P.; Tyson, G. W. Fast, accurate error-correction of amplicon pyrosequences using Acacia Nat. Methods 2012, 9 (5) 425-426
-
(2012)
Nat. Methods
, vol.9
, Issue.5
, pp. 425-426
-
-
Bragg, L.1
Stone, G.2
Imelfort, M.3
Hugenholtz, P.4
Tyson, G.W.5
-
29
-
-
84868318446
-
High-throughput amplicon sequencing reveals distinct communities within a corroding concrete sewer system
-
Cayford, B. I.; Dennis, P. G.; Keller, J.; Tyson, G. W.; Bond, P. L. High-throughput amplicon sequencing reveals distinct communities within a corroding concrete sewer system Appl. Environ. Microb. 2012, 78 (19) 7160-7162
-
(2012)
Appl. Environ. Microb.
, vol.78
, Issue.19
, pp. 7160-7162
-
-
Cayford, B.I.1
Dennis, P.G.2
Keller, J.3
Tyson, G.W.4
Bond, P.L.5
-
30
-
-
0034782218
-
Ecologically meaningful transformations for ordination of species data
-
Legendre, P.; Gallagher, E. D. Ecologically meaningful transformations for ordination of species data Oecologia 2001, 129 (2) 271-280
-
(2001)
Oecologia
, vol.129
, Issue.2
, pp. 271-280
-
-
Legendre, P.1
Gallagher, E.D.2
-
31
-
-
82355180895
-
Efficient electricity generation from sewage sludge using biocathode microbial fuel cell
-
Zhang, G. D.; Zhao, Q. L.; Jiao, Y.; Wang, K.; Lee, D. J.; Ren, N. Q. Efficient electricity generation from sewage sludge using biocathode microbial fuel cell Water Res. 2012, 46 (1) 43-52
-
(2012)
Water Res.
, vol.46
, Issue.1
, pp. 43-52
-
-
Zhang, G.D.1
Zhao, Q.L.2
Jiao, Y.3
Wang, K.4
Lee, D.J.5
Ren, N.Q.6
-
32
-
-
84455205481
-
Biocathode microbial fuel cell for efficient electricity recovery from dairy manure
-
Zhang, G. D.; Zhao, Q. L.; Jiao, Y.; Wang, K.; Lee, D. J.; Ren, N. Q. Biocathode microbial fuel cell for efficient electricity recovery from dairy manure Biosens. Bioelectron. 2012, 31 (1) 537-543
-
(2012)
Biosens. Bioelectron.
, vol.31
, Issue.1
, pp. 537-543
-
-
Zhang, G.D.1
Zhao, Q.L.2
Jiao, Y.3
Wang, K.4
Lee, D.J.5
Ren, N.Q.6
-
33
-
-
77951018320
-
Voltammetry and growth physiology of geobacter sulfurreducens biofilms as a function of growth stage and imposed electrode potential
-
Marsili, E.; Sun, J.; Bond, D. R. Voltammetry and growth physiology of geobacter sulfurreducens biofilms as a function of growth stage and imposed electrode potential Electroanalysis 2010, 22 (7-8) 865-874
-
(2010)
Electroanalysis
, vol.22
, Issue.78
, pp. 865-874
-
-
Marsili, E.1
Sun, J.2
Bond, D.R.3
-
34
-
-
33751014053
-
Biofilm and nanowire production leads to increased current in Geobacter sulfurreducens fuel cells
-
Reguera, G.; Nevin, K. P.; Nicoll, J. S.; Covalla, S. F.; Woodard, T. L.; Lovley, D. R. Biofilm and nanowire production leads to increased current in Geobacter sulfurreducens fuel cells Appl. Environ. Microb. 2006, 72 (11) 7345-7348
-
(2006)
Appl. Environ. Microb.
, vol.72
, Issue.11
, pp. 7345-7348
-
-
Reguera, G.1
Nevin, K.P.2
Nicoll, J.S.3
Covalla, S.F.4
Woodard, T.L.5
Lovley, D.R.6
-
35
-
-
84855754203
-
Electron donors supporting growth and electroactivity of geobacter sulfurreducens anode biofilms
-
Speers, A. M.; Reguera, G. Electron donors supporting growth and electroactivity of geobacter sulfurreducens anode biofilms Appl. Environ. Microb. 2012, 78 (2) 437-444
-
(2012)
Appl. Environ. Microb.
, vol.78
, Issue.2
, pp. 437-444
-
-
Speers, A.M.1
Reguera, G.2
-
36
-
-
0025348227
-
Kinetics and modelling of aerobic and anaerobic film growth
-
Capdeville, B.; Nguyen, K. M. Kinetics and modelling of aerobic and anaerobic film growth Water Sci. Technol. 1990, 22 (1-2) 149-170
-
(1990)
Water Sci. Technol.
, vol.22
, Issue.12
, pp. 149-170
-
-
Capdeville, B.1
Nguyen, K.M.2
-
37
-
-
77957596932
-
Bacteria/material interfaces: Role of the material and cell wall properties
-
Ploux, L.; Ponche, A.; Anselme, K. Bacteria/material interfaces: role of the material and cell wall properties J. Adhes. Sci. Technol. 2010, 24 (13-14) 2165-2201
-
(2010)
J. Adhes. Sci. Technol.
, vol.24
, Issue.1314
, pp. 2165-2201
-
-
Ploux, L.1
Ponche, A.2
Anselme, K.3
|