Add to ORKGC60 crystals were grown from purified powder material with a multiple sublimation technique. In addition to crystals wit a cubic close-packed (ccp) arrangement, crystals were found with a hexagonal close-packed (hcp) structure. Detailed crystallographic evidence is given, including complete refinements, of the room-temperature structures of both polytypes. The radius of the C60 molecule was determined as 3.541 (1) angstrom, and was found to be equal for both ccp and hcp crystals.</p
The unusual features observed in TEM images of solution-grown fcc C60 crystallites (Z.G. Li and P.J....
X-ray powder diffraction studies on pure C70 and C60 solids in the temperature range 298-773 K is re...
We demonstrate that solvates of fullerene C60 form very predictable structures with finely tunable p...
C60 crystals were grown from purified powder material with a multiple sublimation technique. In addi...
C60 crystals were grown from purified powder material with a multiple sublimation technique. In addi...
We have grown crystals of the carbon structure C60 by sublimation. In contrast to solution-grown cry...
Recent breakthroughs in synthesizing large amounts of C_(60), C_(70) and other fullerenes have made ...
We describe the self-assembly of soluble, chemically modified fullerene [6,6]-phenyl C61 butyric aci...
The structure of the low-temperature phase of hexagonal close-packed (hcp) grown C70 is determined f...
We describe the self-assembly of soluble, chemically modified fullerene [6,6]-phenyl C 61 butyric ac...
The structure of the low-temperature phase of hexagonal close-packed (hcp) grown C70 is determined f...
Single crystals of pure C60 are grown from the vapour phase. The crystal morphology is compared to t...
The crystal structure and defect structures of C60 material have been studied by means of X-ray diff...
The fullerenes C60 and C70 act as spherical building blocks in crystalline solids to form a variety ...
The room-temperature face-centered cubic (FCC-a0) phase as well as the low-temperature simple cubic ...
The unusual features observed in TEM images of solution-grown fcc C60 crystallites (Z.G. Li and P.J....
X-ray powder diffraction studies on pure C70 and C60 solids in the temperature range 298-773 K is re...
We demonstrate that solvates of fullerene C60 form very predictable structures with finely tunable p...
C60 crystals were grown from purified powder material with a multiple sublimation technique. In addi...
C60 crystals were grown from purified powder material with a multiple sublimation technique. In addi...
We have grown crystals of the carbon structure C60 by sublimation. In contrast to solution-grown cry...
Recent breakthroughs in synthesizing large amounts of C_(60), C_(70) and other fullerenes have made ...
We describe the self-assembly of soluble, chemically modified fullerene [6,6]-phenyl C61 butyric aci...
The structure of the low-temperature phase of hexagonal close-packed (hcp) grown C70 is determined f...
We describe the self-assembly of soluble, chemically modified fullerene [6,6]-phenyl C 61 butyric ac...
The structure of the low-temperature phase of hexagonal close-packed (hcp) grown C70 is determined f...
Single crystals of pure C60 are grown from the vapour phase. The crystal morphology is compared to t...
The crystal structure and defect structures of C60 material have been studied by means of X-ray diff...
The fullerenes C60 and C70 act as spherical building blocks in crystalline solids to form a variety ...
The room-temperature face-centered cubic (FCC-a0) phase as well as the low-temperature simple cubic ...
The unusual features observed in TEM images of solution-grown fcc C60 crystallites (Z.G. Li and P.J....
X-ray powder diffraction studies on pure C70 and C60 solids in the temperature range 298-773 K is re...
We demonstrate that solvates of fullerene C60 form very predictable structures with finely tunable p...