Add to ORKGAn understanding of nanocrystal shape evolution is significant for the design, synthesis, and applications of nanocrystals with surface-enhanced properties such as catalysis or plasmonics. Surface adsorbates that are selectively attached to certain facets may strongly affect the atomic pathways of nanocrystal shape development. However, it is a great challenge to directly observe such dynamic processes in situ with a high spatial resolution. Here, we report the anomalous shape evolution of Ag2O2 nanocrystals modulated by the surface adsorbates of Ag clusters during electron beam etching, which is revealed through in situ transmission electron microscopy (TEM). In contrast to the Ag2O2 nanocrystals without adsorbates, which display the near-...
With the rapid development of nanoscale structuring technology, the precision in the etching reaches...
Mechanisms of kinetically driven nanocrystal shape transformations were elucidated by monitoring sin...
The properties of nanocrystals are highly depending on their morphology, composition and structure. ...
An understanding of nanocrystal shape evolution is significant for the design, synthesis, and applic...
Morphology of Ag nanocrystals (NCs) is essential to the NC application in catalysis, optics, and as ...
Silver nanoprisms are found to undergo a shape transformation from triangular to disk-like upon func...
The properties of nanocrystals are highly dependent on their morphology, composition and structure. ...
Nanomaterials exhibit unique size-dependent properties, and colloidal, metallic nanocrystals have be...
We have investigated the structure and morphology of self-assembled silver nanocrystals supported on...
In this paper, we investigate the structural and morphological changes caused by the electron-beam i...
In situ microscopy of colloidal nanocrystal growth offers a unique opportunity to acquire direct and...
Although nanocrystal morphology is controllable using conventional colloidal synthesis, multiple cha...
We present a combined theoretical and experimental study on the morphological, structural, and optic...
The properties of nanocrystals are highly dependent on their morphology, composition, and structure....
Shape control is of key importance in utilizing the structure-property relationship of nanocrystals....
With the rapid development of nanoscale structuring technology, the precision in the etching reaches...
Mechanisms of kinetically driven nanocrystal shape transformations were elucidated by monitoring sin...
The properties of nanocrystals are highly depending on their morphology, composition and structure. ...
An understanding of nanocrystal shape evolution is significant for the design, synthesis, and applic...
Morphology of Ag nanocrystals (NCs) is essential to the NC application in catalysis, optics, and as ...
Silver nanoprisms are found to undergo a shape transformation from triangular to disk-like upon func...
The properties of nanocrystals are highly dependent on their morphology, composition and structure. ...
Nanomaterials exhibit unique size-dependent properties, and colloidal, metallic nanocrystals have be...
We have investigated the structure and morphology of self-assembled silver nanocrystals supported on...
In this paper, we investigate the structural and morphological changes caused by the electron-beam i...
In situ microscopy of colloidal nanocrystal growth offers a unique opportunity to acquire direct and...
Although nanocrystal morphology is controllable using conventional colloidal synthesis, multiple cha...
We present a combined theoretical and experimental study on the morphological, structural, and optic...
The properties of nanocrystals are highly dependent on their morphology, composition, and structure....
Shape control is of key importance in utilizing the structure-property relationship of nanocrystals....
With the rapid development of nanoscale structuring technology, the precision in the etching reaches...
Mechanisms of kinetically driven nanocrystal shape transformations were elucidated by monitoring sin...
The properties of nanocrystals are highly depending on their morphology, composition and structure. ...