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Adsorption phenomena in hydrometallurgy, 3. Model for copper, nickel and cobalt uptake by oxide adsorbents in aqueous ammoniacal solutions
K. Osseo-Asare
, D. W. Fuerstenau
Materials Research Institute (MRI)
Materials Science and Engineering
Research output
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Contribution to journal
›
Article
›
peer-review
15
Scopus citations
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Dive into the research topics of 'Adsorption phenomena in hydrometallurgy, 3. Model for copper, nickel and cobalt uptake by oxide adsorbents in aqueous ammoniacal solutions'. Together they form a unique fingerprint.
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Engineering & Materials Science
Hydrometallurgy
100%
Adsorbents
72%
Permittivity
60%
Adsorption
58%
Nickel
56%
Oxides
51%
Copper
49%
Solvation
32%
Metal ions
28%
Colloids
28%
Substrates
28%
Metals
12%
Earth & Environmental Sciences
cobalt
62%
aqueous solution
52%
nickel
52%
oxide
45%
copper
43%
adsorption
40%
substrate
20%
metal
17%
colloid
15%
ion
9%
effect
7%
Chemical Compounds
Dielectric Constant
55%
Adsorbent
44%
Oxide
32%
Adsorption
29%
Colloid
18%
Solvation
17%
Metal Ion
12%
Solvent
9%
Metal
9%