United Kingdom
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School of Chemical Engineering, University of Birmingham, UK
Dr. D. A. John wase |
1. Ho, Y.S., McKay, G., Wase, D.A.J. and Forster, C.F. (2000), Study of the sorption of divalent metal ions on to peat. Adsorption Science & Technology, 18 (7), 639-650. 2. Wase, D.A.J., Forster, C.F. and Ho, Y.S. (1997), Low-cost biosorbents: Batch processes. in Biosorbents for Metal Ions, (Edited by Wase, D.A.J. and Forster, C.F.), Taylor and Francis, London and New York, 141-163. 3. Ho, Y.S., Wase, D.A.J. and Forster, C.F. (1996), Removal of lead ions from aqueous-solution using sphagnum moss peat as adsorbent. Water SA, 22 (3), 219-224. 4. Ho, Y.S., Wase, D.A.J. and Forster, C.F. (1996), Kinetic studies of competitive heavy metal adsorption by sphagnum moss peat. Environmental Technology, 17 (1), 71-77. 5. Ho, Y.S., Wase, D.A.J. and Forster, C.F. (1995), Batch nickel removal from aqueous solution by sphagnum moss peat. Water Research, 29 (5), 1327-1332. 6. Ho, Y.S., Wase, D.A.J. and Forster, C.F. (1994), The adsorption of divalent copper ions from aqueous solution by sphagnum moss peat. Process Safety and Environmental Protection, 72 (B3), 185-194. |
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School of Civil Engineering, University of Birmingham, UK
Dr. Forster, C.F. (Deceased) |
1. Ho, Y.S., McKay, G., Wase, D.A.J. and Forster, C.F. (2000), Study of the sorption of divalent metal ions on to peat. Adsorption Science & Technology, 18 (7), 639-650. 2. Wase, D.A.J., Forster, C.F. and Ho, Y.S. (1997), Low-cost biosorbents: Batch processes. in Biosorbents for Metal Ions, (Edited by Wase, D.A.J. and Forster, C.F.), Taylor and Francis, London and New York, 141-163. 3. Ho, Y.S., Wase, D.A.J. and Forster, C.F. (1996), Removal of lead ions from aqueous-solution using sphagnum moss peat as adsorbent. Water SA, 22 (3), 219-224. 4. Ho, Y.S., Wase, D.A.J. and Forster, C.F. (1996), Kinetic studies of competitive heavy metal adsorption by sphagnum moss peat. Environmental Technology, 17 (1), 71-77. 5. Ho, Y.S., Wase, D.A.J. and Forster, C.F. (1995), Batch nickel removal from aqueous solution by sphagnum moss peat. Water Research, 29 (5), 1327-1332. 6. Ho, Y.S., Wase, D.A.J. and Forster, C.F. (1994), The adsorption of divalent copper ions from aqueous solution by sphagnum moss peat. Process Safety and Environmental Protection, 72 (B3), 185-194. |
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Department of Chemistry, Unrversity of Sheffield, UK
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1. Adams, H., Fenton, D.E., Ho, Y.S., Najera, B.A. and Rodriguez de Barbarin, C.O. (1997), The X-ray crystal structures of two derivatives of 2,6-bis{[2-(dimethoxymethyl)phenoxy]methyl}pyridine. Journal of Chemical Research-S, 6, 188-189. 2. Bailey, N.A., Debarbarin, C.O.R., Fenton, D.E., Ho, Y.S. and Humber, G.J. (1995), The synthesis and crystal-structure of a cerium(III) complex of 2,6-bis (2-formylphenoxymethyl)pyridine. Inorganica Chimica Acta, 232 (1-2), 227-230. 3. Adams, H., Bailey, N.A., Fenton, D.E. and Ho, Y.S. (1993), A polymetric tetraimine schiff base macrocyclic complex of silver(I). Inorganica Chimica Acta, 212 (1-2), 65-68. 4. Adams, H., Bailey, N.A., Bastida, R., Fenton, D.E., Ho, Y.S. and Hempstead, P.D. (1992), The reaction of 2,6-bis(2-formylphenoxymethyl)pyridine and bis(2-aminoethyl) ether in the presence and absence of metal cations: The crystal structure of a [1+1] macrocyclic product. Journal of Chemical Research-S, 6, 190-191. 5. Adams, H., Fenton, D.E., Ho, Y.S., Najera, B.A. and Rodriguez de Barbarin, C.O. (1997), The X-ray crystal structures of two derivatives of 2,6-bis{[2-(dimethoxymethyl)phenoxy]methyl}pyridine. Journal of Chemical Research. Miniprint., 6 (3), 1237-1251. 6. Adams, H., Bailey, N.A., Bastida, R., Fenton, D.E., Ho, Y.S. and Hempstead, P.D. (1992), The reaction of 2,6-bis(2-formylphenoxymethyl)pyridine and bis(2-aminoethyl) ether in the presence and absence of metal cations: The crystal structure of a [1+1] macrocyclic product. Journal of Chemical Research. Miniprint., 1501-1516. |
