redox equilibria
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2021 ◽  
Author(s):  
Qingyang Hu ◽  
Mingqiang Hou ◽  
Yu He

<p>At planetary interior conditions, water ice has been proved to enter a superionic phase recently since it was predicted about 30-year ago. Hydrogen in superionic water become liquid-like, and move freely within solid oxygen lattice. Under extreme pressure and temperature conditions of Earth’s deep mantle, the solid-superionic transition can also occur readily in the pyrite-type FeO<sub>2</sub>Hx, a candidate mineral in the lower mantle and probably also in other hydrous minerals. We find that when the pressure increases beyond 73 GPa at room temperature, symmetric hydroxyl bonds are softened and the H<sup>+</sup> (or proton) become diffusive within the vicinity of its crystallographic site. Increasing temperature under pressure, the diffusivity of hydrogen is extended beyond individual unit cell to cover the entire solid, and the electrical conductivity soars, indicating a transition to the superionic state which is characterized by freely-moving proton and solid FeO<sub>2</sub> lattice. The superionic hydrogen will dramatically change the geophysical picture of electrical conductivity and magnetism, as well as geochemical processes of hydrogen isotopic mixing and redox equilibria at local regions of Earth’s deep interiors.</p>


2020 ◽  
Vol 79 (4) ◽  
pp. 421-434
Author(s):  
Elio Padoan ◽  
Aline Hernandez Kath ◽  
Ledemar Carlos Vahl ◽  
Franco Ajmone-Marsan

AbstractMetal-contaminated mining soils pose serious environmental and health risks if not properly managed, especially in mountainous areas, which are more susceptible to perturbation. Currently, climate change is leading to more frequent and intense rain events, which cause flooding episodes, thereby altering soil redox equilibria and contaminants stability. We evaluated the potential release of Zn and Cd (two of the most common inorganic contaminants) and the factors regulating their solubility and speciation in two heavily contaminated soils representative of a Zn-mining area. The soils were flooded under aerobic (for 24 h) and anaerobic (for 62 days) conditions using mesocosm experiments, sequential extractions, and geochemical modelling. Leaching trials under aerobic conditions showed a high release of Zn and Cd (10 times the legislative limits), with metals possibly migrating via water infiltration or runoff. Under anaerobic conditions Zn and Cd were initially released. Then, solution concentrations decreased gradually (Zn) or sharply (Cd) until the end of the experiment. Sequential extractions and multisurface modelling indicated that both metals precipitated mainly as carbonates. This was confirmed by a geochemical multisurface modelling, which also predicted the formation of sulphides after 60 days in one soil. The model calculated metals to be preferentially complexed by organic matter and well predicted the observed soil solution concentrations. The results showed that during flooding episodes contaminants could be promptly transferred to other environmental compartments. The use of multisurface modelling coupled with laboratory experiments provided useful indications on the potential release and speciation in case of anoxic conditions.


Author(s):  
Wen-Fan Chen ◽  
Chantelle Marie De Sa Malacco ◽  
Rashid Mehmood ◽  
Kochurani K. Johnson ◽  
Jia-Lin Yang ◽  
...  

2020 ◽  
Vol 21 (7) ◽  
pp. 544-554
Author(s):  
Qingyun Jia ◽  
Hans-Uwe Dahms ◽  
Lan Wang

Metallothioneins (MTs) are low-molecular-weight, cysteine-rich proteins that bind to heavy metals. MTs play a key role in the homeostasis of metal ions, maintaining intracellular redox equilibria and free radical scavenging. In several studies, under different conditions such as cancer development, drug therapy and heavy metal stress, the unique structural changes and functional effects of MT were studied. Although several assays are available to monitor the content and type of Metallothionein (MT) from environmental samples or in biomedical assays, Enzyme-Linked Immunosorbent Assays (ELISA) became the preferred method of MT detection. ELISA is low in cost, specific, simple, and efficient. This review evaluates the advantages and disadvantages of using different types of ELISA in the detection of metallothioneins from environmental or clinical samples as well as ways of its validation and cross-validation.


Antioxidants ◽  
2020 ◽  
Vol 9 (6) ◽  
pp. 465
Author(s):  
Tamás Pálla ◽  
Arash Mirzahosseini ◽  
Béla Noszál

Microscopic redox equilibrium constants and standard redox potential values were determined to quantify selenolate-diselenide equilibria of biological significance. The highly composite, codependent acid-base and redox equilibria of selenolates could so far be converted into pH-dependent, apparent parameters (equilibrium constants, redox potentials) only. In this work, the selenolate-diselenide redox equilibria of selenocysteamine and selenocysteine against dithiothreitol were analyzed by quantitative nuclear magnetic resonance (NMR) methods to characterize the interfering acid-base and redox equilibria. The directly obtained, pH-dependent, conditional redox equilibrium constants were then decomposed by our method into pH-independent, microscopic constants, which characterize the two-electron redox transitions of selenocysteamine and selenocysteine. The 12 different, species-specific parameter values show close correlation with the respective selenolate basicities, providing a tool to estimate otherwise inaccessible site-specific selenolate-diselenide redox potentials of related moieties in large peptides and proteins.


2020 ◽  
Author(s):  
Nadia Malaspina ◽  
Marcello Campione ◽  
Mattia La Fortezza ◽  
Marco Scambelluri

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