Trend Research
Centre
United Kingdom
School of
Chemical
Engineering,
University of
Birmingham, UK
1.
2.
3.
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.
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.
Ho, Y.S., Wase, D.A.J. and Forster, C.F. (1996), Removal of
lead ions from aqueous-solution using sphagnum moss peat
4.
as adsorbent. Water SA, 22 (3), 219-224.
Ho, Y.S., Wase, D.A.J. and Forster, C.F. (1996), Kinetic
studies of competitive heavy metal adsorption by sphagnum
5.
moss peat. Environmental Technology, 17 (1), 71-77.
Ho, Y.S., Wase, D.A.J. and Forster, C.F. (1995), Batch nickel
removal from aqueous solution by sphagnum moss peat.
6.
Water Research, 29 (5), 1327-1332.
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.
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.
7.
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.
2.
Ho, Y.S., Wase, D.A.J. and Forster, C.F. (1996), Removal of
lead ions from aqueous-solution using sphagnum moss peat
3.
as adsorbent. Water SA, 22 (3), 219-224.
Ho, Y.S., Wase, D.A.J. and Forster, C.F. (1996), Kinetic
studies of competitive heavy metal adsorption by sphagnum
4.
5.
moss peat. Environmental Technology, 17 (1), 71-77.
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.
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.
Department of
Chemistry,
Unrversity of
Sheffield, UK
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.
3.
4.
5.
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.
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.
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.
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.
6.
Journal of Chemical Research. Miniprint., 6 (3), 1237-1251.
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.