Add to ORKGIron is the most abundant transition metal on the Earth. It is present in aquatic environments, soils as well as atmosphere. In the aquatic media, it is often present in a form of Fe(III) complexes, especially, with polycarboxylic acids. Citric acid was chosen as their suitable representative in this study
The chemistry of iron in natural waters has considerable effect on a variety of environmental proces...
International audienceIn the present study we investigate the photochemical properties and impact on...
The redox chemistry of iron in natural aquatic systems is of great interest due to its significance ...
Iron is the most abundant transition metal on the Earth. It is present in aquatic environments, soil...
Iron is the most abundant transition metal on the Earth. It is present in the atmosphere, soils as w...
Iron (Fe) is an essential cofactor for all livings. Although Fe membrane transport mechanisms often ...
The impact of the iron complexes and sunlight of the fate of pollutants in the aquatic environment w...
The impact of the iron complexes and sunlight of the fate of pollutants in the aquatic environment w...
The aquatic chemistry of iron is an important issue since iron is a micronutrient for the growth of ...
Iron is one of the most abundant elements in the environment. It is also an essential micronutrient ...
Iron is ail essential trace element for the biological requirements of photoplankton. It can be invo...
Iron (Fe) is an essential trace element for several key metabolic processes in phytoplankton; howeve...
We have investigated the kinetics of Fe(III) complexation by several organic ligands including fulvi...
International audienceFe(III)–carboxylate complexes were investigated with respect to tri-carboxylic...
International audienceIn the present study we investigate the photochemical properties and impact on...
The chemistry of iron in natural waters has considerable effect on a variety of environmental proces...
International audienceIn the present study we investigate the photochemical properties and impact on...
The redox chemistry of iron in natural aquatic systems is of great interest due to its significance ...
Iron is the most abundant transition metal on the Earth. It is present in aquatic environments, soil...
Iron is the most abundant transition metal on the Earth. It is present in the atmosphere, soils as w...
Iron (Fe) is an essential cofactor for all livings. Although Fe membrane transport mechanisms often ...
The impact of the iron complexes and sunlight of the fate of pollutants in the aquatic environment w...
The impact of the iron complexes and sunlight of the fate of pollutants in the aquatic environment w...
The aquatic chemistry of iron is an important issue since iron is a micronutrient for the growth of ...
Iron is one of the most abundant elements in the environment. It is also an essential micronutrient ...
Iron is ail essential trace element for the biological requirements of photoplankton. It can be invo...
Iron (Fe) is an essential trace element for several key metabolic processes in phytoplankton; howeve...
We have investigated the kinetics of Fe(III) complexation by several organic ligands including fulvi...
International audienceFe(III)–carboxylate complexes were investigated with respect to tri-carboxylic...
International audienceIn the present study we investigate the photochemical properties and impact on...
The chemistry of iron in natural waters has considerable effect on a variety of environmental proces...
International audienceIn the present study we investigate the photochemical properties and impact on...
The redox chemistry of iron in natural aquatic systems is of great interest due to its significance ...