-
2
-
-
4444228715
-
Hydrogen from biomass
-
Nath K and Das D, Hydrogen from biomass. Current Sci 85: 265-271 (2003).
-
(2003)
Current Sci
, vol.85
, pp. 265-271
-
-
Nath, K.1
Das, D.2
-
3
-
-
57449102625
-
Microbial electrolysis cells (MECs) for high yield hydrogen gas production from organic matter
-
Logan BE, Call D, Cheng S, Hamelers HVM, Sleutels THJA, Jeremiasse AW, et al, Microbial electrolysis cells (MECs) for high yield hydrogen gas production from organic matter. Environ Sci Technol 42: 8630-8640 (2008).
-
(2008)
Environ Sci Technol
, vol.42
, pp. 8630-8640
-
-
Logan, B.E.1
Call, D.2
Cheng, S.3
Hamelers, H.V.M.4
Sleutels, T.H.J.A.5
Jeremiasse, A.W.6
-
4
-
-
64749084426
-
Exoelectrogenic bacteria that power microbial fuel cells
-
Logan BE. Exoelectrogenic bacteria that power microbial fuel cells. Nature Rev Microbiol 7: 375-381 (2009).
-
(2009)
Nature Rev Microbiol
, vol.7
, pp. 375-381
-
-
Logan, B.E.1
-
5
-
-
65049084632
-
The use of stainless steel and nickel alloys as low-cost cathodes in microbial electrolysis cells
-
Selembo PA, Merrill MD and Logan BE, The use of stainless steel and nickel alloys as low-cost cathodes in microbial electrolysis cells. J Power Sources 190: 271-278 (2009).
-
(2009)
J Power Sources
, vol.190
, pp. 271-278
-
-
Selembo, P.A.1
Merrill, M.D.2
Logan, B.E.3
-
6
-
-
64549127249
-
High surface area stainless steel brushes as cathodes in microbial electrolysis cells
-
Call DF, Merrill MD and Logan BE, High surface area stainless steel brushes as cathodes in microbial electrolysis cells. Environ Sci Technol 43: 2179-2183 (2009).
-
(2009)
Environ Sci Technol
, vol.43
, pp. 2179-2183
-
-
Call, D.F.1
Merrill, M.D.2
Logan, B.E.3
-
7
-
-
70349440838
-
Hydrogen production in single-chamber tubular microbial electrolysis cells using non-precious-metal catalysts
-
Hu H, Fan Y and Liu H, Hydrogen production in single-chamber tubular microbial electrolysis cells using non-precious-metal catalysts. Int J Hydrogen Energy 34: 8535-8542 (2009).
-
(2009)
Int J Hydrogen Energy
, vol.34
, pp. 8535-8542
-
-
Hu, H.1
Fan, Y.2
Liu, H.3
-
8
-
-
65649120046
-
Tungsten carbide as electrocatalyst for the hydrogen evolution reaction in pH neutral electrolyte solutions
-
Harnisch F, Sievers G and Schroder U, Tungsten carbide as electrocatalyst for the hydrogen evolution reaction in pH neutral electrolyte solutions. Appl Catal B: Environ 89: 455-458 (2009).
-
(2009)
Appl Catal B: Environ
, vol.89
, pp. 455-458
-
-
Harnisch, F.1
Sievers, G.2
Schroder, U.3
-
9
-
-
0036888999
-
Carbon nanotube-polyaniline hybrid materials
-
Deng J, Ding X, Zhang W, Peng Y, Wang J, Long X, et al, Carbon nanotube-polyaniline hybrid materials. Eur Polym J 38: 2497-2501 (2002).
-
(2002)
Eur Polym J
, vol.38
, pp. 2497-2501
-
-
Deng, J.1
Ding, X.2
Zhang, W.3
Peng, Y.4
Wang, J.5
Long, X.6
-
10
-
-
0037076634
-
Preparation and characterization of platinum-based electrocatalysts on multiwalled carbon nanotubes for proton exchange membrane fuel cells
-
Liu ZL, Lin XH, Lee JY, Zhang WD, Han M and Gan LM, Preparation and characterization of platinum-based electrocatalysts on multiwalled carbon nanotubes for proton exchange membrane fuel cells. Langmuir 18: 4054-4060 (2002).
-
(2002)
Langmuir
, vol.18
, pp. 4054-4060
-
-
Liu, Z.L.1
Lin, X.H.2
Lee, J.Y.3
Zhang, W.D.4
Han, M.5
Gan, L.M.6
-
11
-
-
1442324492
-
Proton exchange membrane fuel cells with carbon nanotube based electrodes
-
Wang C, Waje M, Wang X, Tang JM, Haddon RC and Yan Y, Proton exchange membrane fuel cells with carbon nanotube based electrodes. Nano Lett 4: 345-348 (2004).
-
(2004)
Nano Lett
, vol.4
, pp. 345-348
-
-
Wang, C.1
Waje, M.2
Wang, X.3
Tang, J.M.4
Haddon, R.C.5
Yan, Y.6
-
12
-
-
34249326597
-
Carbon nanotube/polyaniline composite as anode material for microbial fuel cells
-
Qiao Y, Li CM, Bao SJ and Bao QL, Carbon nanotube/polyaniline composite as anode material for microbial fuel cells. J Power Sources 170: 79-84 (2007).
-
(2007)
J Power Sources
, vol.170
, pp. 79-84
-
-
Qiao, Y.1
Li, C.M.2
Bao, S.J.3
Bao, Q.L.4
-
13
-
-
0038199617
-
Synthesis of carbon nanotubes by pyrolysis of acetylene using alloy hydride materials as catalysts and their hydrogen adsorption studies
-
Shaijumon MM and Ramaprabhu S, Synthesis of carbon nanotubes by pyrolysis of acetylene using alloy hydride materials as catalysts and their hydrogen adsorption studies. Chem Phys Lett 374: 513-520 (2003).
-
(2003)
Chem Phys Lett
, vol.374
, pp. 513-520
-
-
Shaijumon, M.M.1
Ramaprabhu, S.2
-
14
-
-
79952226539
-
Evaluation of low-cost cathode catalysts for high yield biohydrogen production in microbial electrolysis cell
-
Wang LY, Chen YW, Ye YJ, Lu BB, Zhu SM and Shen SB, Evaluation of low-cost cathode catalysts for high yield biohydrogen production in microbial electrolysis cell. Water Sci Technol 63: 440-448 (2011).
-
(2011)
Water Sci Technol
, vol.63
, pp. 440-448
-
-
Wang, L.Y.1
Chen, Y.W.2
Ye, Y.J.3
Lu, B.B.4
Zhu, S.M.5
Shen, S.B.6
-
15
-
-
47049085042
-
Hydrogen production in a single chamber microbial electrolysis cell (MEC) lacking a membrane
-
Call D and Logan BE, Hydrogen production in a single chamber microbial electrolysis cell (MEC) lacking a membrane. Environ Sci Technol 42: 3401-3406 (2008).
-
(2008)
Environ Sci Technol
, vol.42
, pp. 3401-3406
-
-
Call, D.1
Logan, B.E.2
-
16
-
-
0024191542
-
Novel mode of microbial energy metabolism: organic carbon oxidation coupled to dissimilatory reduction of iron or manganese
-
Lovley DR and Phillips EJP, Novel mode of microbial energy metabolism: organic carbon oxidation coupled to dissimilatory reduction of iron or manganese. Appl Envrion Microbial 54: 1472-1480 (1988).
-
(1988)
Appl Envrion Microbial
, vol.54
, pp. 1472-1480
-
-
Lovley, D.R.1
Phillips, E.J.P.2
-
18
-
-
33745432252
-
Platinum/ multiwalled carbon nanotubes-platinum/carbon composites as electrocatalysts for oxygen reduction reaction in proton exchange membrane fuel cell
-
Shaijumon MM, Ramaprabhu S and Rajalakshmi N, Platinum/ multiwalled carbon nanotubes-platinum/carbon composites as electrocatalysts for oxygen reduction reaction in proton exchange membrane fuel cell. Appl Phys Lett 88: 253105-253107 (2006).
-
(2006)
Appl Phys Lett
, vol.88
, pp. 253105-253107
-
-
Shaijumon, M.M.1
Ramaprabhu, S.2
Rajalakshmi, N.3
-
19
-
-
10944234780
-
Synthesis and electrochemical characterization of uniformly-dispersed high loading Pt nanoparticles on sonochemically-treated carbon nanotubes
-
Xing Y, Synthesis and electrochemical characterization of uniformly-dispersed high loading Pt nanoparticles on sonochemically-treated carbon nanotubes. J Phys Chem: B 108: 19255-19259 (2004).
-
(2004)
J Phys Chem: B
, vol.108
, pp. 19255-19259
-
-
Xing, Y.1
-
20
-
-
73749083417
-
Hydrogen production with nickel powder cathode catalysts in microbial electrolysis cells
-
Selembo PA, Merrill MD and Logan B, Hydrogen production with nickel powder cathode catalysts in microbial electrolysis cells. Int J Hydrogen Energy 35: 428-437 (2010).
-
(2010)
Int J Hydrogen Energy
, vol.35
, pp. 428-437
-
-
Selembo, P.A.1
Merrill, M.D.2
Logan, B.3
-
21
-
-
20044370112
-
Electrochemically assisted microbial production of hydrogen from acetate
-
Liu H, Grot S and Logan BE, Electrochemically assisted microbial production of hydrogen from acetate. Environ Sci Technol 39: 4317-4320 (2005).
-
(2005)
Environ Sci Technol
, vol.39
, pp. 4317-4320
-
-
Liu, H.1
Grot, S.2
Logan, B.E.3
-
22
-
-
85000257614
-
High yield hydrogen production in a single-chamber membrane-less microbial electrolysis cell
-
Ye YJ, Wang LY, Chen YW, Zhu SM and Shen SB, High yield hydrogen production in a single-chamber membrane-less microbial electrolysis cell. Water Sci Technol 61: 721-727 (2010).
-
(2010)
Water Sci Technol
, vol.61
, pp. 721-727
-
-
Ye, Y.J.1
Wang, L.Y.2
Chen, Y.W.3
Zhu, S.M.4
Shen, S.B.5
-
23
-
-
67650713527
-
Hydrogen production from cellulose in a two-stage process combining fermentation and electrohydrogenesis
-
Lalaurette E, Thammannagowda S, Mohagheghi A, Maness P and Logan BE, Hydrogen production from cellulose in a two-stage process combining fermentation and electrohydrogenesis. Int J Hydrogen Energy 34: 6201-6210 (2009).
-
(2009)
Int J Hydrogen Energy
, vol.34
, pp. 6201-6210
-
-
Lalaurette, E.1
Thammannagowda, S.2
Mohagheghi, A.3
Maness, P.4
Logan, B.E.5
-
24
-
-
34047125848
-
Performance of single chamber biocatalyzed electrolysis with different types of ion exchange membranes
-
Rozendal RA, Hamelers HVM, Molenkamp RJ and Buisman CJN, Performance of single chamber biocatalyzed electrolysis with different types of ion exchange membranes. Water Res 41: 1984-1994 (2007).
-
(2007)
Water Res
, vol.41
, pp. 1984-1994
-
-
Rozendal, R.A.1
Hamelers, H.V.M.2
Molenkamp, R.J.3
Buisman, C.J.N.4
-
25
-
-
75749112093
-
Significance of biological hydrogen oxidation in a continuous single-chamber microbial electrolysis cell
-
Lee HS and Rittmann BE, Significance of biological hydrogen oxidation in a continuous single-chamber microbial electrolysis cell. Environ Sci Technol 44: 948-954 (2010).
-
(2010)
Environ Sci Technol
, vol.44
, pp. 948-954
-
-
Lee, H.S.1
Rittmann, B.E.2
-
26
-
-
77953544096
-
Hydrogen production from proteins via electrohydrogenesis in microbial electrolysis cells
-
Lu L, Xing DF, Xie TH, Ren NQ and Logan BE, Hydrogen production from proteins via electrohydrogenesis in microbial electrolysis cells. Biosens Bioelectron 25: 2690-2695 (2010).
-
(2010)
Biosens Bioelectron
, vol.25
, pp. 2690-2695
-
-
Lu, L.1
Xing, D.F.2
Xie, T.H.3
Ren, N.Q.4
Logan, B.E.5
-
27
-
-
33644938991
-
Principle and perspectives of hydrogen production through biocatalyzed electrolysis
-
Rozendal RA, Hamelers HVM, Euverink GJW, Metz SJ and Buisman CJN, Principle and perspectives of hydrogen production through biocatalyzed electrolysis. Int J Hydrogen Energy 31: 1632-1640 (2006).
-
(2006)
Int J Hydrogen Energy
, vol.31
, pp. 1632-1640
-
-
Rozendal, R.A.1
Hamelers, H.V.M.2
Euverink, G.J.W.3
Metz, S.J.4
Buisman, C.J.N.5
-
28
-
-
0036628841
-
Cysteine-mediated reductive dissolution of poorly crystalline iron(III) oxides by Geobacter sulfurreducens
-
Doong RA and Schink B, Cysteine-mediated reductive dissolution of poorly crystalline iron(III) oxides by Geobacter sulfurreducens. Environ Sci Technol 36: 2939-2945 (2002).
-
(2002)
Environ Sci Technol
, vol.36
, pp. 2939-2945
-
-
Doong, R.A.1
Schink, B.2
-
29
-
-
77649210312
-
Outward electron transfer by Saccharomyces cerevisiae monitored with a bi-cathodic microbial fuel cell-type activity sensor
-
Ducommun R, Favre MF, Carrard D and Fischer F, Outward electron transfer by Saccharomyces cerevisiae monitored with a bi-cathodic microbial fuel cell-type activity sensor. Yeast 27: 139-148 (2010).
-
(2010)
Yeast
, vol.27
, pp. 139-148
-
-
Ducommun, R.1
Favre, M.F.2
Carrard, D.3
Fischer, F.4
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