David M. Teter
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View article: In situ remediation process using divalent metal cations
In situ remediation process using divalent metal cations Open
An in situ process for treating ambient solid materials (e.g., soils, aquifer solids, sludges) by adding one or more divalent metal cations to the ambient solid material. The added divalent metal cations, such as Cu.sup.2+ or Zn.sup.2+, co…
View article: Arsenic removal in conjunction with lime softening
Arsenic removal in conjunction with lime softening Open
A method for removing dissolved arsenic from an aqueous medium comprising adding lime to the aqueous medium, and adding one or more sources of divalent metal ions other than calcium and magnesium to the aqueous medium, whereby dissolved ar…
View article: Inorganic ion sorbents
Inorganic ion sorbents Open
A process and medium for decontamination of water containing anionic species including arsenic and chromium, wherein compounds comprising divalent and trivalent metal oxides and sulfides are used to form surface complexes with contaminants…
View article: Method of removing arsenic and other anionic contaminants from contaminated water using enhanced coagulation
Method of removing arsenic and other anionic contaminants from contaminated water using enhanced coagulation Open
An improved water decontamination process comprising contacting water containing anionic contaminants with an enhanced coagulant to form an enhanced floc, which more efficiently binds anionic species (e.g., arsenate, arsenite, chromate, fl…
View article: An atomistic modelling investigation of the defect chemistry of SrTiO3 and its Ruddlesden-Popper phases, Srn+1TinO3n+1 (n = 1–3)
An atomistic modelling investigation of the defect chemistry of SrTiO3 and its Ruddlesden-Popper phases, Srn+1TinO3n+1 (n = 1–3) Open
Atomistic modelling is routinely used to simulate the structure and properties of materials. As classical techniques rely on the accuracy of potential models (or force fields), it is important to demonstrate the reliability and transferabi…