Chemical Speciation of Organic and Inorganic components of Environmental and Biological Interest in Natural Fluids: Behaviour, Interaction and Sequestration
Crea, Francesco
Chemical Speciation of Organic and Inorganic components of Environmental and Biological Interest in Natural Fluids: Behaviour, Interaction and Sequestration - MDPI - Multidisciplinary Digital Publishing Institute 2020 - 1 electronic resource (218 p.)
Open Access
The International Union of Pure and Applied Chemistry (IUPAC) defines the term “speciation” as the distribution of an element amongst defined chemical species in a system, while the process leading to quantitative estimation of the content of different species is called speciation analysis. The chemical speciation of elements in natural waters and biological fluids is a key topic, essential for discussing the chemical reactivity of constituents in these systems. It is well understood that it is the chemical form of a metal or metalloids that determines its reactivity, lifetime, and fate in the environment. Chemical speciation now involves various sectors of the sciences, from chemistry to biology, biochemistry, and environmental sciences, since—as is well known—the total concentration, alone, of an inorganic or organic component (metal or ligand) in a multicomponent natural system (fresh water, sea water, biological fluids, soil, etc.) is insufficient for a comprehensive understand of its behavior in those contests.
Creative Commons
English
books978-3-03928-453-5 9783039284535 9783039284528
10.3390/books978-3-03928-453-5 doi
peptide hydroxamic acids n/a evolved gas analysis dependence on ionic strength van’t Hoff equation enthalpy and entropy changes brain trace element concentration brain toxicity heavy metals interactions Rh(III)-based half-sandwich complexes photosynthesis indicators sequestering ability solution equilibrium Melissa officinalis ICP-OES toxic cations amyloid-? Zn2+ Mo(VI) complexes magnesium epinephrine arsenic honeybee specific ion interaction theory hazardous elements speciation Zn-complexation alcoholic liver disease field metal complexation ICP-MS affinity mercury aluminum TI-EGA-MS manganese herbs 3-hydroxy-4-pyridinone Ru(II)- trace elements selenium alcoholism copper chromium speciation antimony pesticide speciation analysis silicon deficiency extended Debye–Hückel HR-CS FAAS biomimetic complexes migration hyphenated technique toys safety iron risk acid–base properties
Chemical Speciation of Organic and Inorganic components of Environmental and Biological Interest in Natural Fluids: Behaviour, Interaction and Sequestration - MDPI - Multidisciplinary Digital Publishing Institute 2020 - 1 electronic resource (218 p.)
Open Access
The International Union of Pure and Applied Chemistry (IUPAC) defines the term “speciation” as the distribution of an element amongst defined chemical species in a system, while the process leading to quantitative estimation of the content of different species is called speciation analysis. The chemical speciation of elements in natural waters and biological fluids is a key topic, essential for discussing the chemical reactivity of constituents in these systems. It is well understood that it is the chemical form of a metal or metalloids that determines its reactivity, lifetime, and fate in the environment. Chemical speciation now involves various sectors of the sciences, from chemistry to biology, biochemistry, and environmental sciences, since—as is well known—the total concentration, alone, of an inorganic or organic component (metal or ligand) in a multicomponent natural system (fresh water, sea water, biological fluids, soil, etc.) is insufficient for a comprehensive understand of its behavior in those contests.
Creative Commons
English
books978-3-03928-453-5 9783039284535 9783039284528
10.3390/books978-3-03928-453-5 doi
peptide hydroxamic acids n/a evolved gas analysis dependence on ionic strength van’t Hoff equation enthalpy and entropy changes brain trace element concentration brain toxicity heavy metals interactions Rh(III)-based half-sandwich complexes photosynthesis indicators sequestering ability solution equilibrium Melissa officinalis ICP-OES toxic cations amyloid-? Zn2+ Mo(VI) complexes magnesium epinephrine arsenic honeybee specific ion interaction theory hazardous elements speciation Zn-complexation alcoholic liver disease field metal complexation ICP-MS affinity mercury aluminum TI-EGA-MS manganese herbs 3-hydroxy-4-pyridinone Ru(II)- trace elements selenium alcoholism copper chromium speciation antimony pesticide speciation analysis silicon deficiency extended Debye–Hückel HR-CS FAAS biomimetic complexes migration hyphenated technique toys safety iron risk acid–base properties