Add to ORKGCubic as well as hexagonal single crystals of C70 have been grown and investigated by electron diffraction, electron microscopy and X-ray diffraction. Several phase transitions have been detected and crystallographic models are proposed. Hexagonal crystals, stable at room temperature with c/a = 1.63 will undergo two transitions, upon cooling. First the c/a ratio will increase to 1.82 owing to c-axis allignment of the molecules; at a lower temperature the molecules will orientationally order, resulting in a monoclinic structure.</p
The structure of the low-temperature phase of hexagonal close-packed (hcp) grown C70 is determined f...
The structure of the low-temperature phase of hexagonal close-packed (hcp) grown C70 is determined f...
The structure of the low-temperature phase of hexagonal close-packed (hcp) grown C70 is determined f...
Cubic as well as hexagonal single crystals of C70 have been grown and investigated by electron diffr...
Cubic as well as hexagonal single crystals of C70 have been grown and investigated by electron diffr...
Cubic as well as hexagonal single crystals of C70 have been grown and investigated by electron diffr...
Cubic as well as hexagonal single crystals of C70 have been grown and investigated by electron diffr...
Single crystals of pure C70 are grown from the vapour phase and the structure and morphology of thes...
Single crystals of pure C70 are grown from the vapour phase and the structure and morphology of thes...
Single crystals of pure C70 are grown from the vapour phase and the structure and morphology of thes...
Single crystals of pure C70 are grown from the vapour phase and the structure and morphology of thes...
Single crystals of pure C70 are grown from the vapour phase and the structure and morphology of thes...
Single crystal of pure C70 are grown from the vapour phase and the structure and morphology of these...
Single crystals of pure C70 are grown from the vapour phase and the structure and morphology of thes...
The structure of the low-temperature phase of hexagonal close-packed (hcp) grown C70 is determined f...
The structure of the low-temperature phase of hexagonal close-packed (hcp) grown C70 is determined f...
The structure of the low-temperature phase of hexagonal close-packed (hcp) grown C70 is determined f...
The structure of the low-temperature phase of hexagonal close-packed (hcp) grown C70 is determined f...
Cubic as well as hexagonal single crystals of C70 have been grown and investigated by electron diffr...
Cubic as well as hexagonal single crystals of C70 have been grown and investigated by electron diffr...
Cubic as well as hexagonal single crystals of C70 have been grown and investigated by electron diffr...
Cubic as well as hexagonal single crystals of C70 have been grown and investigated by electron diffr...
Single crystals of pure C70 are grown from the vapour phase and the structure and morphology of thes...
Single crystals of pure C70 are grown from the vapour phase and the structure and morphology of thes...
Single crystals of pure C70 are grown from the vapour phase and the structure and morphology of thes...
Single crystals of pure C70 are grown from the vapour phase and the structure and morphology of thes...
Single crystals of pure C70 are grown from the vapour phase and the structure and morphology of thes...
Single crystal of pure C70 are grown from the vapour phase and the structure and morphology of these...
Single crystals of pure C70 are grown from the vapour phase and the structure and morphology of thes...
The structure of the low-temperature phase of hexagonal close-packed (hcp) grown C70 is determined f...
The structure of the low-temperature phase of hexagonal close-packed (hcp) grown C70 is determined f...
The structure of the low-temperature phase of hexagonal close-packed (hcp) grown C70 is determined f...
The structure of the low-temperature phase of hexagonal close-packed (hcp) grown C70 is determined f...