REFERENCES
- Bae , C. , Chakrabarti , H. and Roberts , E. 2008 . A membrane free electrochemical cell using porous flow through graphite felt electrodes . Journal of Applied Electrochemistry , 38 : 637 – 44 .
- Bae , C.H. 2001 . Cell design and electrolytes of a novel redox flow battery , 215 Manchester : PhD Thesis, UMIST .
- Bae , C.H. , Roberts , E.P.L. and Dryfe , R.A.W. 2002 . Chromium redox couples for application to redox flow batteries . Electrochimica Acta , 48 : 279 – 87 .
- Balamurugan , P. , Ashok , S. and Jose , T.L. 2009 . Optimal operation of biomass/wind/pv hybrid energy system for rural areas . International Journal of Green Energy , 6 : 104 – 16 .
- Chakrabarti , M.H. and Roberts , E.P.L. 2008a . Electrochemical separation of ferro/ferricyanide using a membrane free redox flow cell . NED University Journal of Research , 5 : 43 – 59 .
- Chakrabarti , M.H. and Roberts , E.P.L. 2008b . Analysis of mixtures of ferrocyanide and ferricyanide using UV-visible spectroscopy for characterization of a novel redox flow battery . Journal of the Chemical Society of Pakistan , 30 : 817 – 23 .
- Chakrabarti , M.H. , Roberts , E.P.L. and Saleem , M. 2010 . Charge/discharge performance of a novel undivided redox flow battery for renewable energy storage . International Journal of Green Energy , 7 : 445 – 60 .
- Chakrabarti , M.H. , Dryfe , R.A.W. and Roberts , E.P.L. 2007 . Organic electrolytes for redox flow batteries . Journal of the Chemical Society of Pakistan , 29 : 294 – 300 .
- Collins , J. , Kear , G. , Li , X. , Low , C.T.J. , Pletcher , D. , Tangirala , R. , Stratton-Campbell , D. , Walsh , F.C. and Zhang , C. 2010b . A novel flow battery: A lead acid battery based on an electrolyte with soluble lead(II) Part VIII. The cycling of a 10 cm × 10 cm flow cell . Journal of Power Sources , 195 : 1731 – 8 .
- Collins , J. , Li , X. , Pletcher , D. , Tangirala , R. , Stratton-Campbell , D. , Walsh , F.C. and Zhang , C. 2010a . A novel flow battery: A lead acid battery based on an electrolyte with soluble lead(II). Part IX: Electrode and electrolyte conditioning with hydrogen peroxide . Journal of Power Sources , 195 : 2975 – 8 .
- Hazza , A. , Pletcher , D. and Wills , R. 2005 . A novel flow battery—A lead acid battery based on an electrolyte with soluble lead(II): IV. The influence of additives . Journal of Power Sources , 149 : 103 – 11 .
- Li , X. , Pletcher , D. and Walsh , F.C. 2009 . A novel flow battery: A lead acid battery based on an electrolyte with soluble lead(II): Part VII. Further studies of the lead dioxide positive electrode . Electrochimica Acta , 54 : 4688 – 95 .
- Linden , D. 1984 . Handbook of batteries and fuel cells , New York : McGraw-Hill .
- Pan , J. , Sun , Y. , Cheng , J. , Wen , Y. , Yang , Y. and Wan , P. 2008 . Study on a new single flow acid Cu–PbO2 battery . Electrochemistry Communications , 10 : 1226 – 9 .
- Park , Y.H. and Caton , J.A. 2008 . Monitoring an electrode flooding through the back pressure in a proton exchange membrane (PEM) fuel cell . International Journal of Green Energy , 5 : 347 – 59 .
- Pecsok , R.L. , Shields , L.D. and Schaefer , W.P. 1964 . Complexes of Chromium(II) and (III) with ethylenediaminetetraacetic acid . Inorganic Chemistry , 3 : 114 – 6 .
- Pletcher , D. and White , J.C.P. 1992 . Studies of indirect electrochemical reductions using chromium complexes with polyaminocarboxylate ligands as mediators . Electrochimica Acta , 37 : 575 – 83 .
- Pletcher , D. and Wills , R. 2004 . A novel flow battery: A lead acid battery based on an electrolyte with soluble lead(II) Part II. Flow cell studies . Physical Chemistry Chemical Physics , 6 : 1779 – 85 .
- Pletcher , D. and Wills , R. 2005 . A novel flow battery—A lead acid battery based on an electrolyte with soluble lead(II): III. The influence of conditions on battery performance . Journal of Power Sources , 149 : 96 – 102 .
- Ponce de Leon , C. , Frıas-Ferrer , A. , Gonzalez-Garcıa , J. , Szanto , D.A. and Walsh , F.C. 2006 . Redox flow cells for energy conversion . Journal of Power Sources , 160 : 716 – 32 .
- Walsh , J.H. and Earley , J.E. 1964 . Reduction potentials of some chromium(III) complexes . Inorganic Chemistry , 3 : 343 – 7 .
- Wen , Y.H. , Cheng , J. , Ma , P.H. and Yang , Y.S. 2008a . Bifunctional redox flow battery-1 V(III)/V(II)–glyoxal(O2) system . Electrochimica Acta , 53 : 3514 – 22 .
- Wen , Y.H. , Cheng , J. , Xun , Y. , Ma , P.H. and Yang , Y.S. 2008b . Bifunctional redox flow battery. 2. V(III)/V(II)-l-cystine(O2) system . Electrochimica Acta , 53 : 6018 – 23 .
- Xu , Y. , Wen , Y. , Cheng , J. , Cao , G. and Yang , Y. 2009 . Study on a single flow acid Cd–chloranil battery . Electrochemistry Communications , 11 : 1422 – 4 .
- Xu , Y. , Wen , Y.H. , Cheng , J. , Cao , G.P. and Yang , Y.S. 2010 . A study of tiron in aqueous solutions for redox flow battery application . Electrochimica Acta , 55 : 715 – 20 .
- Yamamura , T. , Shirasaki , K. , Shiokawa , Y. , Nakamura , Y. and Kim , S.Y. 2004 . Characterization of tetraketone ligands for active materials of all-uranium redox flow battery . Journal of Alloys and Compounds , 374 : 349 – 53 .
- Yamamura , T. , Watanabe , N. and Shiokawa , Y. 2006 . Energy efficiency of neptunium redox battery in comparison with vanadium battery . Journal of Alloys and Compounds , 408–412 : 1260 – 66 .
- Yamamura , T. , Shiokawa , Y. , Yamana , H. and Moriyama , H. 2002 . Electrochemical investigation of uranium β-diketonates for all-uranium redox flow battery . Electrochimica Acta , 48 : 43 – 50 .