Add to ORKGAbstract: Numerous factors control the chemistry of metal ions in natural aqueous systems. These include the presence of a host of complexing agents, speciation among a variety of competing ligands, buffering due to precipitated solid phases, and the relative influences of kinetic versus thermodynamic phenomena. Natural aqueous systems are inevitably compli-cated, but simple, inorganic models can be constructed to characterize a variety of different environments. While available data sets for these models are large, it is clear that much fur-ther research is required in order to develop more sophisticated models. Some of the fields of research that need to be addressed are outlined, and some of the constraints on such re-search are briefly ...
A critical analysis and interpretation of the data published for complexation (conditional stability...
This study provides an extensive stability constant (log K) database suitable for calculating the sp...
The speciation of trace metals in the oceans is typically explained by invoking the concept of metal...
Aqueous–solid solution (AQ-SS) processes have garnered increasing attention from geochemists and env...
Trace metal speciation is often studied by applying an analytical methodology. An alternative method...
Being able to predict the behavior of trace elements in the environment is crucial for environmental...
Being able to predict the behavior of trace elements in the environment is crucial for environmental...
In the computation of metal flux in aquatic systems, at consuming surfaces like organism membranes, ...
Numerous models exist for predicting metal interactions in the environment, but few have been valida...
The speciation of trace metals in natural waters has been extensively studied owing to their potenti...
A model for the speciation of Cu’+, Mn’+, and Zn2+ ions in freshwaters was constructed. The solubili...
We study the mobility and interaction under competing conditions observed for copper () and zinc () ...
In this chapter we show that The metal chemistry of anoxic systems is dominated by reactions with...
none3siBeing able to predict the behavior of trace elements in the environment is crucial for enviro...
River) complexes in aqueous model solutions was studied by the competing ligand exchange method (CLE...
A critical analysis and interpretation of the data published for complexation (conditional stability...
This study provides an extensive stability constant (log K) database suitable for calculating the sp...
The speciation of trace metals in the oceans is typically explained by invoking the concept of metal...
Aqueous–solid solution (AQ-SS) processes have garnered increasing attention from geochemists and env...
Trace metal speciation is often studied by applying an analytical methodology. An alternative method...
Being able to predict the behavior of trace elements in the environment is crucial for environmental...
Being able to predict the behavior of trace elements in the environment is crucial for environmental...
In the computation of metal flux in aquatic systems, at consuming surfaces like organism membranes, ...
Numerous models exist for predicting metal interactions in the environment, but few have been valida...
The speciation of trace metals in natural waters has been extensively studied owing to their potenti...
A model for the speciation of Cu’+, Mn’+, and Zn2+ ions in freshwaters was constructed. The solubili...
We study the mobility and interaction under competing conditions observed for copper () and zinc () ...
In this chapter we show that The metal chemistry of anoxic systems is dominated by reactions with...
none3siBeing able to predict the behavior of trace elements in the environment is crucial for enviro...
River) complexes in aqueous model solutions was studied by the competing ligand exchange method (CLE...
A critical analysis and interpretation of the data published for complexation (conditional stability...
This study provides an extensive stability constant (log K) database suitable for calculating the sp...
The speciation of trace metals in the oceans is typically explained by invoking the concept of metal...