A platinum star performance: Quasi-single-crystalline Pt nanoparticles with peculiar morphologies—cubic dendrites, planar tripods, and fivefold stars—were synthesized in high yield. Shape selectivity was achieved by finely tuning the growth kinetics under a dihydrogen atmosphere
We demonstrate a preparative method which produces highly-monodisperse Pt-nanoparticles of tunable s...
At the nanometer scale, the physical and chemical properties of materials heavily depend on their si...
In this work, we successfully prepare two-dimensional ultrathin single-crystalline platinum nanodend...
Controlled growth of far-from-equilibrium-shaped nanoparticles with size selection is essential for ...
PtPd nanoparticles are among the most widely studied nanoscale systems, mainly because of their appl...
Supported nanocrystals of original shapes are highly desirable for the development of optimized cata...
PtPd nanoparticles are among the most widely studied nanoscale systems, mainly because of their appl...
Noble-metal nanocrystals with well-controlled attributes have found use in a variety of applications...
A universal approach is presented for high-yield synthesis of Au, Pt, and Pd nanoflowers using the s...
We recently introduced a new method to synthesize an active and stable Pt catalyst, namely thermo-de...
A liquid-phase reducing method of synthesizing Pt nanocrystals was demonstrated, and dendrite-, cube...
Solution chemistry allows obtaining nanoparticles with well-controlled structural characteristics. I...
La synthèse par voie chimique en solution permet d’obtenir des nanoparticules de caractéristiques st...
Discovering new alternative catalysts for (industrial) organic reactions is an important and challan...
A nanoparticle with well-defined surfaces, prepared through colloidal chemistry, enables it to be st...
We demonstrate a preparative method which produces highly-monodisperse Pt-nanoparticles of tunable s...
At the nanometer scale, the physical and chemical properties of materials heavily depend on their si...
In this work, we successfully prepare two-dimensional ultrathin single-crystalline platinum nanodend...
Controlled growth of far-from-equilibrium-shaped nanoparticles with size selection is essential for ...
PtPd nanoparticles are among the most widely studied nanoscale systems, mainly because of their appl...
Supported nanocrystals of original shapes are highly desirable for the development of optimized cata...
PtPd nanoparticles are among the most widely studied nanoscale systems, mainly because of their appl...
Noble-metal nanocrystals with well-controlled attributes have found use in a variety of applications...
A universal approach is presented for high-yield synthesis of Au, Pt, and Pd nanoflowers using the s...
We recently introduced a new method to synthesize an active and stable Pt catalyst, namely thermo-de...
A liquid-phase reducing method of synthesizing Pt nanocrystals was demonstrated, and dendrite-, cube...
Solution chemistry allows obtaining nanoparticles with well-controlled structural characteristics. I...
La synthèse par voie chimique en solution permet d’obtenir des nanoparticules de caractéristiques st...
Discovering new alternative catalysts for (industrial) organic reactions is an important and challan...
A nanoparticle with well-defined surfaces, prepared through colloidal chemistry, enables it to be st...
We demonstrate a preparative method which produces highly-monodisperse Pt-nanoparticles of tunable s...
At the nanometer scale, the physical and chemical properties of materials heavily depend on their si...
In this work, we successfully prepare two-dimensional ultrathin single-crystalline platinum nanodend...
DOI
Add to ORKG