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Speciation and reactivity of Cisplatin in river water and seawater.
Lisa Curtis
,
Andrew Turner
*
, Nitin Vyas
,
Graham Sewell
*
Corresponding author for this work
School of Geography, Earth and Environmental Sciences
School of Health Professions
University Hospitals Plymouth NHS Trust
Research output
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Article
›
peer-review
20
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Chemistry
Seawater
100%
Cisplatin
100%
Rate Constant
33%
Chloride Ion
33%
Desorption
33%
Sorption
16%
Kinetics Type
16%
Reaction Order
16%
Coastal Water
16%
Antineoplastic Agent
16%
Degradation Product
16%
Water Distribution
16%
Turbidity
16%
Deprotonation
16%
Primary Structure
16%
Engineering
River Water
100%
Adsorption
85%
Ion Concentration
28%
Particle Surface
28%
Aqueous Phase
14%
Water Distribution
14%
Rate Constant
14%
Reverse Rate Constant
14%
Reaction Order
14%
Degradation Product
14%
Distribution Coefficient
14%
Protonation
14%
Earth and Planetary Sciences
River Water
100%
Adsorption
71%
Ion Concentration
28%
Desorption
28%
Estuarine Sediment
14%
Coastal Water
14%
Turbidity
14%
Water Distribution
14%
Degradation Product
14%
Transit Time
14%
Sorption
14%
Chemical Engineering
Adsorption
100%
Desorption
50%
Water Distribution
16%
Agricultural and Biological Sciences
River Water
100%
Coastal Water
14%
Estuarine Sediment
14%
Water Distribution
14%