Ines Feldmann scite author profile

Industrial and agricultural waste streams (waste water, sludges, tailings, etc.) which contain high concentrations of NH 4 + , PO 4 3− , and transition metals are environmentally harmful and toxic pollutants. At the same time, phosphorous and transition metals constitute highly valuable resources. Typically, separate pathways have been considered to extract hazardous transition metals or phosphate independently from each other. Investigations on the simultaneous removal of multiple components have been carried out only to a limited extent. Here, we report the synthesis routes for Ni-and Co-struvites (NH 4 MPO 4 •6H 2 O, M = Ni 2+ and Co 2+ ), which allow for P, ammonia, and metal co-precipitation. By evaluating different reaction parameters, the phase and stability of transition metal struvites as well as their crystal morphologies and sizes could be optimized. Ni-struvite is stable in a wide reactant concentration range and at different metal/phosphorus (M/P) ratios, whereas Co-struvite only forms at low M/P ratios. Detailed investigations of the precipitation process using ex situ and in situ techniques provided insights into the crystallization mechanisms/ crystal engineering of these materials. M-struvites crystallize via intermediate colloidal amorphous nanophases, which subsequently aggregate and condense to final crystals after extended reaction times. However, the exact reaction kinetics of the formation of a final crystalline product varies significantly depending on the involved metal cation in the precipitation process: several seconds (Mg) to minutes (Ni) to hours (Co). The achieved level of control over the morphology and size makes precipitation of transition metal struvites a promising method for direct metal recovery and binding them in the form of valuable phosphate raw materials. Under this paradigm, the crystals can be potentially up-cycled as precursor powders for electrochemical or (electro)catalytic applications, which require transition metal phosphates.

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Evaluating and defining the sharpness of intraocular lenses: Microedge structure of commercially available square-edged hydrophilic intraocular lenses

Werner¹,

Tetz²,

Feldmann³

et al. 2009

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Maintaining Stable Zeolitic Imidazolate Framework (ZIF) Templates during Polyelectrolyte Multilayer Coating

Beyer

Schürmann

Feldmann

et al. 2018

Colloid and Interface Science Communications

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Surface-enhanced Raman scattering with silver nanostructures generated in situ in a sporopollenin biopolymer matrix

Joseph¹,

Schulte²,

Rooch³

et al. 2011

Chem. Commun.

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How the rock-inhabiting fungus K. petricola A95 enhances olivine dissolution through attachment

Gerrits

Pokharel

Breitenbach

et al. 2020

Geochimica et Cosmochimica Acta

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Ines Feldmann

Ni- and Co-Struvites: Revealing Crystallization Mechanisms and Crystal Engineering toward Applicational Use of Transition Metal Phosphates

Evaluating and defining the sharpness of intraocular lenses: Microedge structure of commercially available square-edged hydrophilic intraocular lenses

Maintaining Stable Zeolitic Imidazolate Framework (ZIF) Templates during Polyelectrolyte Multilayer Coating

Surface-enhanced Raman scattering with silver nanostructures generated in situ in a sporopollenin biopolymer matrix

How the rock-inhabiting fungus K. petricola A95 enhances olivine dissolution through attachment

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