Add to ORKGHigh-temperature phases of hafnium dioxide have exceptionally high dielectric constants and large bandgaps, but quenching them to room temperature remains a challenge. Scaling the bulk form to nanocrystals, while successful in stabilizing the tetragonal phase of isomorphous ZrO2, has produced nanorods with a twinned version of the room temperature monoclinic phase in HfO2. Here we use in situ heating in a scanning transmission electron microscope to observe the transformation of an HfO2 nanorod from monoclinic to tetragonal, with a transformation temperature suppressed by over 1000°C from bulk. When the nanorod is annealed, we observe with atomic-scale resolution the transformation from twinned-monoclinic to tetragonal, starting at a twin b...
Amorphous hafnia (HfO2) powders were synthesized through a novel reduction oxidation route, in which...
A face-centered-cubic (fcc) phase was obtained in high-purity hafnium (Hf) metal powders subjected t...
YesUnderstanding the effect of physical parameters (e.g., temperature) on crystallisation dynamics i...
We demonstrate that the degree of branching of the alkyl (R) chain in a Hf(OR)<sub>4</sub> precursor...
Hafnia, HfO$_2$ , which is a wide band gap semiconducting oxide, is much less studied than the chemi...
This journal is © 2016 The Royal Society of Chemistry. There has been intense interest in stabilizin...
The transformations of HfO2 are often described as analogous with the transformations in ZrO2 becaus...
Technologically relevant tetragonal/cubic phases of HfO2 can be stabilized at room temperature by do...
Two new methods for synthesizing nanostructured HfO2 have been developed. The first method entails e...
Nanorods are promising components of energy and information storage devices that rely on solute-driv...
Structure, phase transformations, grain growth, and defects of bare and alumina-coated nanoparticles...
The orientation relations m(100) || t(001), m[001] || t[110]; m(011) || t(100), m[001] || t[110] || ...
Envisioned extremely scaled, high-performance memory devices request to conduct the step from thin s...
Abstract Two new methods for synthesizing nanostructured HfO2 have been developed. The first method ...
Hafnia-based thin films exhibit unconventional ferroelectricity. These materials also show rich poly...
Amorphous hafnia (HfO2) powders were synthesized through a novel reduction oxidation route, in which...
A face-centered-cubic (fcc) phase was obtained in high-purity hafnium (Hf) metal powders subjected t...
YesUnderstanding the effect of physical parameters (e.g., temperature) on crystallisation dynamics i...
We demonstrate that the degree of branching of the alkyl (R) chain in a Hf(OR)<sub>4</sub> precursor...
Hafnia, HfO$_2$ , which is a wide band gap semiconducting oxide, is much less studied than the chemi...
This journal is © 2016 The Royal Society of Chemistry. There has been intense interest in stabilizin...
The transformations of HfO2 are often described as analogous with the transformations in ZrO2 becaus...
Technologically relevant tetragonal/cubic phases of HfO2 can be stabilized at room temperature by do...
Two new methods for synthesizing nanostructured HfO2 have been developed. The first method entails e...
Nanorods are promising components of energy and information storage devices that rely on solute-driv...
Structure, phase transformations, grain growth, and defects of bare and alumina-coated nanoparticles...
The orientation relations m(100) || t(001), m[001] || t[110]; m(011) || t(100), m[001] || t[110] || ...
Envisioned extremely scaled, high-performance memory devices request to conduct the step from thin s...
Abstract Two new methods for synthesizing nanostructured HfO2 have been developed. The first method ...
Hafnia-based thin films exhibit unconventional ferroelectricity. These materials also show rich poly...
Amorphous hafnia (HfO2) powders were synthesized through a novel reduction oxidation route, in which...
A face-centered-cubic (fcc) phase was obtained in high-purity hafnium (Hf) metal powders subjected t...
YesUnderstanding the effect of physical parameters (e.g., temperature) on crystallisation dynamics i...