Acar YB, Gale RJ, Alshawabkeh AN, Marks RE, Puppala S, Bricka M, Parker R, “Electrokinetic remediation: basics and technology status”, Journal of Hazardous Materials, 1995, 40 (2), 117-137.
Bolan N, Kunhikrishnan A, Thangarian R, Kumpiene J, Park J, Makino T, Kirkham MB, Scheckel K, “Remediation of heavy metal (loid) s contaminated soils–to mobilize or to immobilize?”, Journal of Hazardous Materials, 2014, 266, 141-166.
Chen Z, Zhu BK, Jia WF, Liang JH, Sun GX, “Can electrokinetic removal of metals from contaminated paddy soils be powered by microbial fuel cells?”, Environmental Technology & Innovation, 2015, 3, 63-67.
Dean JR, “Methods for environmental trace analysis”, John Wiley and Sons, 2003, 1-63.
Deeke A, Sleutels TH, Donkers TF, Hamlers HV, Buisman CJ, TER Heijne A, “Fluidized capacitive bioanode as a novel reactor concept for the microbial fuel cell”, Environmental Science and Technology, 2015, 49 (3), 1929-1935.
Dhanakumar S, Mohanraj R, “Chromium fractionation in the river sediments and its implications on the coastal environment: a case study in the cauvery delta, southeast coast of india”, Coastal Zone Management, Elsevier, 2019, 347-360.
Doborowski R, Otto M, “Study of chromium (VI) adsorption onto modified activated carbons with respect to analytical application”, Adsorption, 2010, 16 (4-5), 279-286.
Ebrahimi A, Kebria DY, Najafpour GD, “Co-treatment of septage and municipal wastewater in a quadripartite microbial desalination cell”, Chemical Engineering Journal, 2018a, 354, 1092-1099.
Ebrahimi A, Najafpour G, Kebria D, “Effect of batch vs. continuous mode of operation on microbial desalination cell performance treating municipal wastewater”, Iranian Journal of Hydrogen and Fuel Cell, 2016, 3 (4), 281-290.
Ebrahimi A, Yousefi kebria D, Darzi GN, “Improving bioelectricity generation and COD removal of sewage sludge in microbial desalination cell”, Environmental Technology, 2018b, 39 (9), 1188-1197.
Ebrahimi A, Yousefi kebria D, Najafpour darzi G, “Enhancing biodegradation and energy generation via roughened surface graphite electrode in microbial desalination cell”, Water Science and Technology, 2017, 76 (5), 1206-1214.
Federation WE, Association APH, “Standard methods for the examination of water and wastewater”, American Public Health Association (APHA): Washington, DC, USA, 2005.
Ghosh L, Adhikar IS, Ayyappans S, “Distribution of lead, cadmium and chromium in sediment and their availability to various organs of a freshwater teleost, Labeo rohita (Hamilton)”, Journal of Fisheries and Aquatic Science, 2006, 1 (2), 200-208.
Gómez-parra A, Forja J, Delvalls T, Sáenz I, Riba I, “Early contamination by heavy metals of the Guadalquivir estuary after the Aznalcóllar mining spill (SW Spain)”, Marine Pollution Bulletin, 2000, 40 (12), 1115-1123.
Gottipati R, Mshra S, “Process optimization of adsorption of Cr (VI) on activated carbons prepared from plant precursors by a two-level full factorial design”, Chemical Engineering Journal, 2010, 160 (1), 99-107.
Habibul N, Hu Y, Sheng GP, “Microbial fuel cell driving electrokinetic remediation of toxic metal contaminated soils”, Journal of Hazardous Materials, 2016, 318, 9-14.
Jaishankar M, Tseten T, Anbalagan N, Mathew BB, Beeregowda KN, “Toxicity, mechanism and health effects of some heavy metals”, Interdisciplinary Toxicology, 2014, 7 (2), 60-72.
Jan A, Azam M, Siddiqui K, Ali A, Choi I, Haq Q, “Heavy metals and human health: mechanistic insight into toxicity and counter defense system of antioxidants”, International journal of Molecular Sciences, 2015, 16 (12), 29592-29630.
Jeon EK, Ryu SR, Baek K, “Application of solar-cells in the electrokinetic remediation of As-contaminated soil”, Electrochimica Acta, 2015, 181, 160-166.
Jiang D, Li B, “Granular activated carbon single-chamber microbial fuel cells (GAC-SCMFCs): a design suitable for large-scale wastewater treatment processes”, Biochemical Engineering Journal, 2009, 47 (1-3), 31-37.
Katurl KP, Scott K, Head IM, Picioreanu C, Curtis TP, “Microbial fuel cells meet with external resistance”, Bioresource Technology, 102, 2758-2766.
Kebria DY, Taghizadeh M, Camacho JV, Latifi N, “Remediation of PCE contaminated clay soil by coupling electrokinetics with zero-valent iron permeable reactive barrier”, Environmental Earth Sciences, 2016, 75 (8), 699.
Khan M, Hasan M, Khan M, Aktar S, Fatema K, “Distribution of heavy metals in surface sediments of the bay of Bengal Coast”, Journal of Toxicology, 2017, 2017, 1-7.
Khodadadi A, Yousefi D, Ganjidoost H, Yari M, “Bioremediation of diesel-contaminated soil using Bacillus sp.(strain TMY-2) in soil by uniform and non-uniform electro kinetic technology field”, Journal of Toxicology and Environmental Health Sciences, 2011, 3 (15), 376-384.
Kim KJ, Cho JM, Baek K, Yang JS, Ko SH, “Electrokinetic removal of chloride and sodium from tidelands”, Journal of Applied Electrochemistry, 2010, 40 (6), 1139-1144.
Liu H, Cheng S, Logan BE, “Power generation in fed-batch microbial fuel cells as a function of ionic strength, temperature, and reactor configuration”, Environmental Science and Technology, 2005, 39 (14), 5488-5493.
Logan B, Cheng S, Watson V, Estadt G, “Graphite fiber brush anodes for increased power production in air-cathode microbial fuel cells”, Environmental Science and Technology, 2007, 41 (19), 3341-3346.
Logan BE, Regan JM, “Microbial fuel cells-challenges and applications”, Environmental Science and Technology, 2006, 40 (17), 5172-5180.
Massud MA, Tarhini A, Nasr JA, “Decentralized approaches to wastewater treatment and management: applicability in developing countries”, Journal of Environmental Management, 2009, 90 (1), 652-659.
Mattuck R, Nikolaidis NP, “Chromium mobility in freshwater wetlands”, Journal of Contaminant Hydrology, 1996, 23 (3), 213-232.
Moore JW, Ramamoorthy S, “Heavy metals in natural waters: applied monitoring and impact assessment”, Springer Science and Business Media, 2012.
Muniz P, Venturini N, Gómez-erache M, “Spatial distribution of chromium and lead in the benthic environment of coastal areas of the Río de la Plata estuary (Montevideo, Uruguai)”, Brazilian Journal of Biology, 2004, 64 (1), 103-116.
Norseth T, “The carcinogenicity of chromium”, Environmental health perspectives, 1981, 40, 121.
Owlad M, Aroua MK, Daud WAW, Baroutian S, “Removal of hexavalent chromium-contaminated water and wastewater: a review”, Water, Air, and Soil Pollution, 2009, 200 (1-4), 59-77.
Pamukcu S, Weeks A, Wittele JK, “Enhanced reduction of Cr (VI) by direct electric current in a contaminated clay”, Environmental Science and Technology, 2004, 38 (4), 1236-1241.
Pant D, Singh A, Van bogaert G, Olsen SI, Nigam PS, Diels L, Vanbroekhoven K, “Bio electrochemical systems (BES) for sustainable energy production and product recovery from organic wastes and industrial wastewaters”, Rsc Advances, 2012, 2 (4), 1248-1263.
Pejman A, Bidhendi GN, Ardestani M, Saeedi M, Baghvand A, “A new index for assessing heavy metals contamination in sediments: a case study”, Ecological Indicators, 2015, 58, 365-373.
Razavi M, Yousefi kebria D, Ebrahimi A, “Microbial sediment remediation cell”, IROST Patent 98409, 2019.
Rao PSC, Jawitz JW, Enfield CG, Falta JR R, Annable MD, Wood AL, “Technology integration for contaminated site remediation: clean-up goals and performance criteria”, Groundwater quality: Natural and Enhanced Restoration Of Groundwater Pollution, 2001, 275, 571-578.
Rozas F, Castellote M, “Electrokinetic remediation of dredged sediments polluted with heavy metals with different enhancing electrolytes”, Electrochimica Acta, 2012, 86, 102-109.
Saha R, Nandi R, Saha B, “Sources and toxicity of hexavalent chromium”, Journal of Coordination Chemistry, 2011, 64 (10), 1782-1806.
Shariatmadari N, Weng CH, Daryaee H, “Enhancement of hexavalent chromium [Cr (VI)][3] remediation from clayey soils by electrokinetics coupled with a nano-sized zero-valent iron barrier”, Environmental Engineering Science, 2009, 26 (6), 1071-1079.
Sharma HD, Reddy KR, “Geoenvironmental engineering: site remediation, waste containment, and emerging waste management technologies”, John Wiley and Sons, 2004.
Singh J, Kalamdhad AS, “Effects of heavy metals on soil, plants, human health and aquatic life”, International Journal of Research in Chemistry and Environment, 2011, 1 (2), 15-21.
Swaine D, “The trace element content of Soils, Commonwealth Bureau of Soil Sci (Great Britain), Tech Commun 48”, Herald Printing Works, York, United Kingdom, 1955.
Tabe Bordbar A, Raeesi Estabragh A, Ghaziani F, “Removal of MTBE Contaminated Clayey Soil by Electro Kinetic Process”, Journal of Civil and Environmental Engineering, 2015, 45, 25-33 (In Persion).
Villares R, Puente X, Carballeira A, “Heavy metals in sandy sediments of the Rias Baixas (NW Spain)”, Environmental Monitoring and Assessment, 2003, 83 (2), 129-144.
Katuri KP, Scott K, Head IM, Picioreanu C, Curtis TP, “Microbial fuel cells meet with external resistance, Bioresource technology”, 2011, 102 (3), 2758-2766.
Shariatmadari N, Weng CH, Daryaee H, “Enhancement of hexavalent chromium [Cr (VI)] remediation from clayey soils by electrokinetics coupled with a nano-sized zero-valent iron barrier”, Environmental Engineering Science, 2009, 26 (6), 1071-1079.
Thepsithar P, Roberts EP, “Removal of phenol from contaminated kaolin using electrokinetically enhanced in situ chemical oxidation”, Environmental Science and Technology, 2006, 40 (19), 6098-6103.
Villares R, Puente X, Carballeira A, “Heavy metals in sandy sediments of the Rias Baixas (NW Spain)”, Environmental Monitoring And Assessment, 2003, 83, 129-144.
Watson VJ, Logan BE, “Analysis of polarization methods for elimination of power overshoot in microbial fuel cells”, Electrochemistry Communications, 2011, 13 (1), 54-56.
Wei J, Liang P, Huang X, “Recent progress in electrodes for microbial fuel cells”, Bioresource technology, 2011, 102 (20), 9335-9344.
Yuan S, Zheng Z, Chen J, Lu X, “Use of solar cell in electrokinetic remediation of cadmium-contaminated soil”, Journal of Hazardous Materials, 2009, 162 (2-3), 1583-1587.
Zhou M, Chi M, Luo J, He H, Jin T, “An overview of electrode materials in microbial fuel cells”, Journal of Power Sources, 2011, 196 (10), 4427-4435.
Zhuang L, Yuan Y, Wang Y, Zhou S, “Long-term evaluation of a 10-liter serpentine-type microbial fuel cell stack treating brewery wastewater”, Bioresource Technology, 2012, 123, 406-412.