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Environmental Technology Letters Volume 10, 1989 - Issue 4
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Original Articles

Removal of copper from solution using moss

C. K. Lee Department of Chemistry, University of Agriculture, 43400, Serdang, Selangor, Malaysia
&
K. S. Low Department of Chemistry, University of Agriculture, 43400, Serdang, Selangor, Malaysia
Pages 395-404 | Received 02 Nov 1988, Accepted 10 Mar 1989, Published online: 17 Dec 2008

Citations (42)

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C. Gerente, V.K. C. Lee, P. Le Cloirec & G. McKay. (2007) Application of Chitosan for the Removal of Metals From Wastewaters by Adsorption—Mechanisms and Models Review. Critical Reviews in Environmental Science and Technology 37:1, pages 41-127.
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Y. S. Ho, J. C.Y. Ng & G. McKay. (2000) KINETICS OF POLLUTANT SORPTION BY BIOSORBENTS: REVIEW. Separation and Purification Methods 29:2, pages 189-232.
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G. McKay, Y.S. Ho & J.C. Y. Ng. (1999) Biosorption of Copper from Waste Waters: A Review. Separation and Purification Methods 28:1, pages 87-125.
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K.S. Low, C.K. Lee & C.H. Tai. (1994) Biosorption of copper by water hyacinth roots. Journal of Environmental Science and Health . Part A: Environmental Science and Engineering and Toxicology 29:1, pages 171-188.
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N. Verma, R. Rehal & A. L. J. Rao. (1993) Scavenging toxic heavy metal ions from industrial wastewaters — a survey. International Journal of Environmental Studies 43:2-3, pages 151-159.
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T. Viraraghavan. (1991) Use of peat in pollution control. International Journal of Environmental Studies 37:3, pages 163-169.
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Articles from other publishers (35)

Alzbeta Marcek Chorvatova, Martin Uherek & Dusan Chorvat. (2021) Biosensing the Presence of Metal Nanoparticles by Spectrally- and Time-Resolved Endogenous Fluorescence in Water Moss Fontinalis antipyretica. Frontiers in Physics 9.
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N.K. Soliman & A.F. Moustafa. (2020) Industrial solid waste for heavy metals adsorption features and challenges; a review. Journal of Materials Research and Technology 9:5, pages 10235-10253.
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J.B. Mathangi & M. Helen Kalavathy. (2018) Study of mathematical models for the removal of Ni 2+ from aqueous solutions using Citrullus lanatus rind, an agro‐based waste . Water and Environment Journal 33:2, pages 276-291.
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Narendra Kumar, Vandna Kumari, Chand Ram, Kiran Thakur & Sudhir Kumar Tomar. (2018) Bio-prospectus of cadmium bioadsorption by lactic acid bacteria to mitigate health and environmental impacts. Applied Microbiology and Biotechnology 102:4, pages 1599-1615.
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Byoung-Ju Kim, Eun-Hye Park & Kwang-Sun Kang. (2016) Surface Modification of Silica Spheres for Copper Removal. Journal of the Korean Chemical Society 60:5, pages 317-320.
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Mahamudur Islam & Rajkishore Patel. (2009) Removal of lead (II) from aqueous environment by a fibrous ion exchanger: Polycinnamamide thorium (IV) phosphate. Journal of Hazardous Materials 172:2-3, pages 707-715.
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C. K. Jain, Arvind Kumar & M. Hayssam Izazy. (2008) Color removal from paper mill effluent through adsorption technology. Environmental Monitoring and Assessment 149:1-4, pages 343-348.
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Magesh Ganesa Pillai, I. Regupathi, M. Helen Kalavathy, T. Murugesan & Lima Rose Miranda. (2009) Optimization and analysis of nickel adsorption on microwave irradiated rice husk using response surface methodology (RSM). Journal of Chemical Technology & Biotechnology 84:2, pages 291-301.
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Vinod K. Gupta & Arshi Rastogi. (2008) Biosorption of lead(II) from aqueous solutions by non-living algal biomass Oedogonium sp. and Nostoc sp.—A comparative study. Colloids and Surfaces B: Biointerfaces 64:2, pages 170-178.
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Sibel Kılınç Alpat, Şenol Alpat, Banu Kutlu, Özge Özbayrak & H. Baha Büyükışık. (2007) Development of biosorption-based algal biosensor for Cu(II) using Tetraselmis chuii. Sensors and Actuators B: Chemical 128:1, pages 273-278.
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Yue Zhang & Charles Banks. (2005) The interaction between Cu, Pb, Zn and Ni in their biosorption onto polyurethane-immobilisedSphagnum moss. Journal of Chemical Technology & Biotechnology 80:11, pages 1297-1305.
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K. S. Low, C. K. Lee & S. M. Mak. (2004) Sorption of copper and lead by citric acid modified wood. Wood Science and Technology 38:8, pages 629-640.
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V. K. Gupta, Suhas, Imran Ali & V. K. Saini. (2004) Removal of Rhodamine B, Fast Green, and Methylene Blue from Wastewater Using Red Mud, an Aluminum Industry Waste. Industrial & Engineering Chemistry Research 43:7, pages 1740-1747.
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V.K. Gupta & Imran Ali. (2004) Removal of lead and chromium from wastewater using bagasse fly ash—a sugar industry waste. Journal of Colloid and Interface Science 271:2, pages 321-328.
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Ramiro J.E. Martins, Rosana Pardo & Rui A.R. Boaventura. (2004) Cadmium(II) and zinc(II) adsorption by the aquatic moss Fontinalis antipyretica: effect of temperature, pH and water hardness. Water Research 38:3, pages 693-699.
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Halil Hasar, Yakup Cuci, Erdal Obek & M. Fatih Dilekoglu. (2016) Removal of Zinc(II) by Activated Carbon Prepared from Almond Husks under Different Conditions. Adsorption Science & Technology 21:9, pages 799-808.
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Irena Twardowska & Joanna Kyziol. (2003) Sorption of metals onto natural organic matter as a function of complexation and adsorbent–adsorbate contact mode. Environment International 28:8, pages 783-791.
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Halil Hasar. (2003) Adsorption of nickel(II) from aqueous solution onto activated carbon prepared from almond husk. Journal of Hazardous Materials 97:1-3, pages 49-57.
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Sameer Al-Asheh, Nabil Abdel-Jabar & Fawzi Banat. (2002) Packed-bed sorption of copper using spent animal bones: factorial experimental design, desorption and column regeneration. Advances in Environmental Research 6:3, pages 221-227.
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V.K. Gupta, A.K. Shrivastava & Neeraj Jain. (2001) Biosorption of Chromium(VI) From Aqueous solutions by green algae spirogyra species. Water Research 35:17, pages 4079-4085.
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Sameer Al-Asheh & Fawzi Banat. (2016) Adsorption of Zinc and Copper Ions by the Solid Waste of the Olive Oil Industry. Adsorption Science & Technology 19:2, pages 117-129.
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Vinod K. Gupta & Imran Ali. (2001) Removal of DDD and DDE from wastewater using bagasse fly ash, a sugar industry waste. Water Research 35:1, pages 33-40.
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Fawzi Banat, Sameer Al-Asheh & Fadhel Mohai. (2000) Batch zinc removal from aqueous solution using dried animal bones. Separation and Purification Technology 21:1-2, pages 155-164.
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Vinod K. Gupta & Imran Ali. (2000) Utilisation of bagasse fly ash (a sugar industry waste) for the removal of copper and zinc from wastewater. Separation and Purification Technology 18:2, pages 131-140.
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Sameer Al-Asheh, Fawzi Banat & Fadel Mohai. (1999) Sorption of copper and nickel by spent animal bones. Chemosphere 39:12, pages 2087-2096.
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G. Mckay, B. Vong & J.F. Porter. (2016) Isotherm Studies for the Sorption of Metal Ions on to Peat. Adsorption Science & Technology 16:1, pages 51-66.
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Vinod K. Gupta. (1998) Equilibrium Uptake, Sorption Dynamics, Process Development, and Column Operations for the Removal of Copper and Nickel from Aqueous Solution and Wastewater Using Activated Slag, a Low-Cost Adsorbent. Industrial & Engineering Chemistry Research 37:1, pages 192-202.
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Gordon McKay & John F. Porter. (1997) Equilibrium Parameters for the Sorption of Copper, Cadmium and Zinc Ions onto Peat. Journal of Chemical Technology & Biotechnology 69:3, pages 309-320.
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S. K. SrivastavaV. K. GuptaDinesh Mohan. (1997) Removal of Lead and Chromium by Activated Slag—A Blast-Furnace Waste. Journal of Environmental Engineering 123:5, pages 461-468.
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S. K. Srivastava, V. K. Gupta & Dinesh Mohan. (1996) Kinetic parameters for the removal of lead and chromium from wastewater using activated carbon developed from fertilizer waste material. Environmental Modeling & Assessment 1:4, pages 281-290.
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C.K. Lee, K.S. Low & K.L. Kek. (1995) Removal of chromium from aqueous solution. Bioresource Technology 54:2, pages 183-189.
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K.S. Low, C.K. Lee & A.C. Leo. (1995) Removal of metals from electroplating wastes using banana pith. Bioresource Technology 51:2-3, pages 227-231.
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Denis Couillard. (1994) The use of peat in wastewater treatment. Water Research 28:6, pages 1261-1274.
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Hirokazu TAKEMIYA, Can Yung WANG & Akihiro FUJIWARA. (1992) TRANSIENT AND STEADY STATE RESPONSE OF TOPOGRAPHICALY IRREGULAR SITES DUE TO SH WAVESH波入射に対する不整形地盤の遷移/定常応答性状. Doboku Gakkai Ronbunshu 1992:450, pages 161-170.
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K.S. Low & C.K. Lee. (1991) Cadmium uptake by the Moss, Calymperes delessertii, Besch. Bioresource Technology 38:1, pages 1-6.
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