Add to ORKGIron oxide nanoparticles are present throughout the Earth and undergo mineral phase transformations that affect their stability and reactivity. The formation of the iron oxide hematite from a 2-line ferrihydrite (2lnFh) precursor requires both phase transformation and growth. Whether phase transformation occurs before or after substantial particle growth, and by which mechanisms particles grow, remain unclear. We conducted time-resolved studies employing X-ray diffraction, room temperature and cryogenic transmission electron microscopy, preferential dissolution by oxalate buffer, and low temperature SQuID magnetometry to investigate the kinetics and mechanism of hematite formation from 2lnFh. A novel form of magnetic measurement was found t...
We present the synthesis, characterization, and magnetic properties of hematite particles in a pecul...
We show that by reacting ferrihydrite (FeH) with Fe(II) ions and subsequently increasing the pH, mag...
The detailed process of the hydrolysis of ferricyanide into dendritic α-Fe2O3 (hematite) crystals wi...
Iron oxide nanoparticles are present throughout the Earth and undergo mineral phase transformations ...
Iron can form numerous oxides, hydroxides, and oxide−hydroxides. Despite their relevance, many of th...
Iron can form numerous oxides, hydroxides, and oxide−hydroxides. Despite their relevance, many of th...
A maghemite-like phase referred to here as “hydromaghemite” was obtained as an intermediate product ...
The kinetics and mechanisms of the transformation of 2-line ferrihydrite (FH) to hematite (HM), in t...
The synthesis of nanosized superparamagnetic hematite particles by dissolving ferric salts in hydroc...
We report the physical properties of α-FeO (hematite), synthesized by dry-heating (350-1,000°C) of a...
The synthesis of nanosized superparamagnetic hematite particles by dissolving ferric salts in hydroc...
The kinetics and mechanisms of the transformation of 2-line ferrihydrite (FH) to hematite (HM), in t...
Iron oxide nanoparticles are widely prevalent in our aqueous environment (e.g., streams, seawater, h...
Magnetic, pXRD and Mössbauer metadata used in the cited study on alteration of synthetic ferrihydrit...
The detailed process of the hydrolysis of ferricyanide into dendritic α-Fe2O3 (hematite) crystals wi...
We present the synthesis, characterization, and magnetic properties of hematite particles in a pecul...
We show that by reacting ferrihydrite (FeH) with Fe(II) ions and subsequently increasing the pH, mag...
The detailed process of the hydrolysis of ferricyanide into dendritic α-Fe2O3 (hematite) crystals wi...
Iron oxide nanoparticles are present throughout the Earth and undergo mineral phase transformations ...
Iron can form numerous oxides, hydroxides, and oxide−hydroxides. Despite their relevance, many of th...
Iron can form numerous oxides, hydroxides, and oxide−hydroxides. Despite their relevance, many of th...
A maghemite-like phase referred to here as “hydromaghemite” was obtained as an intermediate product ...
The kinetics and mechanisms of the transformation of 2-line ferrihydrite (FH) to hematite (HM), in t...
The synthesis of nanosized superparamagnetic hematite particles by dissolving ferric salts in hydroc...
We report the physical properties of α-FeO (hematite), synthesized by dry-heating (350-1,000°C) of a...
The synthesis of nanosized superparamagnetic hematite particles by dissolving ferric salts in hydroc...
The kinetics and mechanisms of the transformation of 2-line ferrihydrite (FH) to hematite (HM), in t...
Iron oxide nanoparticles are widely prevalent in our aqueous environment (e.g., streams, seawater, h...
Magnetic, pXRD and Mössbauer metadata used in the cited study on alteration of synthetic ferrihydrit...
The detailed process of the hydrolysis of ferricyanide into dendritic α-Fe2O3 (hematite) crystals wi...
We present the synthesis, characterization, and magnetic properties of hematite particles in a pecul...
We show that by reacting ferrihydrite (FeH) with Fe(II) ions and subsequently increasing the pH, mag...
The detailed process of the hydrolysis of ferricyanide into dendritic α-Fe2O3 (hematite) crystals wi...