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Rabaey, K., Rozendal, R.A., 2010. Microbial electrosynthesis—revisiting the electrical
route for microbial production. Nat. Rev. Microbiol. 8, 706–716.
Rabaey,K.,Lissens,G.,Siciliano,S.D.,Verstraete,W.,2003.Amicrobialfuelcellcapableofcon-
verting glucose to electricity at high rate and efficiency. Biotechnol. Lett. 25, 1531–1535.
Raghavulu, S.V., Venkata Mohan, S., Goud, R.K., Sarma, P.N., 2009a. Anodic pH micro-
environment influence on microbial fuel cell (MFC) performance in concurrence with
aerated and ferricyanide catholytes. Electrochem. Commun. 11, 371–375.
Raghavulu, S.V., Venkata Mohan, S., Venkateswar Reddy, M., Mohanakrishna, G.,
Sarma, P.N., 2009b. Behavior of single chambered mediatorless microbial fuel cell
(MFC) at acidophilic, neutral and alkaline microenvironments during chemical waste-
water treatment. Int. J. Hydrogen Energ. 34, 7547–7554.
Raghavulu, S.V., Sarma, P.N., Venkata Mohan, S., 2011. Bioelectrochemical behavior of
Pseudomonas aeruginosa and Escherichia coli with the function of anaerobic consortia during
biofuel cell operation. J. Appl. Microbiol. 110, 666–674.
Raghavulu, S.V., Babu, P.S., Goud, R.K., Subhash, G.V., Srikanth, S., Venkata Mohan, S.,
2012. Bioaugmentation of an electrochemically active strain to enhance the electron dis-
charge of mixed culture: process evaluation through electro-kinetic analysis. RSC Adv.
2, 677–688.
Rai, K.P., Singh, S.P., Asthana, R.K., 2012. Biohydrogen production from cheese whey
wastewater in a two-step anaerobic process. Appl. Biochem. Biotechnol.
167, 1540–1549.
Ramanan, R., Kannan, K., Deshkar, A., Yadav, R., Chakrabarti, T., 2010. Enhanced algal
CO 2 sequestration through calcite deposition by Chlorella sp. and Spirulina platensis in a
mini-raceway pond. Bioresour. Technol. 101, 2616–2622.
Ramos, M.J., Fernandez, C.M., Casas, M., Rodriguez, L., Perez, A., 2009. Influence of fatty
acid composition of raw materials on biodiesel properties. Bioresour. Technol.
100, 261–268.
Redwood, M.D., Macaskie, L.E., 2006. A two-stage, two-organism process for biohydrogen
from glucose. Int. J. Hydrogen Energ. 31, 1514–1521.
Ren, N., Chen, Z., Wang, A., Hu, D., 2005. Removal of organic pollutants and analysis of
MLSS-COD removal relationship at different HRTs in a submerged membrane biore-
actor. Int. Biodeter. Biodegrad. 55, 279–284.
Ren, N.Q., Chua, H., Chan, S.Y., Tsang, Y.F., Wang, Y.J., Sin, N., 2007. Assessing optimal
fermentation type for bio-hydrogen production in continuous flow acidogenic reactors.
Bioresour. Technol. 98, 1774–1780.
Ringeisen, B.R., Ray, R., Little, B., 2007. A miniature microbial fuel cell operating with an
aerobic anode chamber. J. Power Sources 165, 591–597.
Rodrigo, M.A., Canizares, P., Lobato, J., Paz, R., Saez, C., Linares, J.J., 2007. Production of
electricity from the treatment of urban waste water using a microbial fuel cell. J. Power
Sources 169, 198–204.
Rozendal, R., Hamelers, H.V.M., Euverink, G.J.W., Metz, S.J., Buisman, C.J.N., 2006.
Principle and perspectives of hydrogen production through biocatalyzed electrolysis.
Int. J. Hydrogen Energ. 31, 1632–1640.
Rozendal, R.A., Hamelers, H.V.M., Molenkamp, R.J., Buisman, C.J.N., 2007. Perfor-
mance of single chamber biocatalyzed electrolysis with different types of ion exchange
membranes. Water Res. 41, 1984–1994.
Sagnak, R., Kargi, F., 2011. Photo-fermentative hydrogen gas production from dark fermen-
tation effluent of acid hydrolyzed wheat starch with periodic feeding. Int. J. Hydrogen
Energ. 36 (7), 4348–4353.
Salehizadeh, H., Van Loosdrecht, M.C.M., 2004. Production of polyhydroxyalkanoates by
mixed culture: recent trends and biotechnological importance. Biotechnol. Adv.
22, 261–279.

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