Since its discovery in 1985, buckminsterfullerene (C 60) has been extensively studied due to its unique properties and it's now being produced in multi-ton quantities. The ability to form stable aqueous C60 colloids (known as nano-C60 or nC 60) and the availability of these in natural systems at environmentally-relevant concentrations led to significant interest concerning the environmental health and safety of these colloidal aggregates. Addressing two issues with regard to this material's environmental health and safety concerns we have looked at the oxidative mechanism of these nC60 colloidal aggregates and their thermal stability. For making accurate kinetics and measurements on oxidation caused by aqueous-nC60 colloidal dispersions, we...
Because of the ability to induce cell death in certain conditions, the fullerenes (C-60) are potenti...
International audienceBuckminsterfullerene (C-60) is a known photosensitizer that produces. reactive...
The occurrence, fate and behaviour of carbon nanomaterials in the aquatic environment are dominated ...
Since its discovery in 1985, buckminsterfullerene (C60) has been extensively studied due to its uniq...
Aqueous colloids of buckminsterfullerene (nC60) display poor temperature stability for reasons that ...
The distribution of pristine C60-fullerene nanoparticles by volume and number in water solution with...
Amphiphilic derivatives of fullerene C60 are attractive from viewpoints of supramolecular chemistry ...
Stable aqueous fullerene colloidal suspensions (<i>n</i>C<sub>60</sub>) are demonstrated to rely on ...
Because large scale application of buckminsterfullerene C 60 in commercial products has nearly come ...
The industrial-scale fullerene production has steadily increased since 1990 and reached at least 10 ...
The use of water-soluble fullerene-based compounds as sensitizers for reactive oxygen species (ROS) ...
We report a supramolecular process for the synthesis of well-defined fullerene (C60)/polymer colloid...
International audienceWe examined the physical and chemical characteristics of colloidal dispersions...
The occurrence, fate and behaviour of carbon nanomaterials in the aquatic environment are dominated ...
The production of the fullerene C60 and its emerging applications in consumer\ud products imply its ...
Because of the ability to induce cell death in certain conditions, the fullerenes (C-60) are potenti...
International audienceBuckminsterfullerene (C-60) is a known photosensitizer that produces. reactive...
The occurrence, fate and behaviour of carbon nanomaterials in the aquatic environment are dominated ...
Since its discovery in 1985, buckminsterfullerene (C60) has been extensively studied due to its uniq...
Aqueous colloids of buckminsterfullerene (nC60) display poor temperature stability for reasons that ...
The distribution of pristine C60-fullerene nanoparticles by volume and number in water solution with...
Amphiphilic derivatives of fullerene C60 are attractive from viewpoints of supramolecular chemistry ...
Stable aqueous fullerene colloidal suspensions (<i>n</i>C<sub>60</sub>) are demonstrated to rely on ...
Because large scale application of buckminsterfullerene C 60 in commercial products has nearly come ...
The industrial-scale fullerene production has steadily increased since 1990 and reached at least 10 ...
The use of water-soluble fullerene-based compounds as sensitizers for reactive oxygen species (ROS) ...
We report a supramolecular process for the synthesis of well-defined fullerene (C60)/polymer colloid...
International audienceWe examined the physical and chemical characteristics of colloidal dispersions...
The occurrence, fate and behaviour of carbon nanomaterials in the aquatic environment are dominated ...
The production of the fullerene C60 and its emerging applications in consumer\ud products imply its ...
Because of the ability to induce cell death in certain conditions, the fullerenes (C-60) are potenti...
International audienceBuckminsterfullerene (C-60) is a known photosensitizer that produces. reactive...
The occurrence, fate and behaviour of carbon nanomaterials in the aquatic environment are dominated ...