Nanoparticles (NPs) are commonly defined as particles with size< 100 nm and are currently
of considerable technological and academic interest, since they are often the starting …

Unique forms of manufactured nanomaterials, nanoparticles, and their suspensions are
rapidly being created by manipulating properties such as shape, size, structure, and …

Fullerene (C60), a third carbon allotrope, is a classical engineered material with the
potential application in biomedicine. One of the biologically most relevant features of C60 is …

A prominent sector of nanotechnology is occupied by a class of carbon-based nanoparticles
known as fullerenes. Fullerene particle size and shape impact in how easily these particles …

Assessing the properties of and characterizing nanomaterials is a task that has quickly
blossomed into arguably the most multidisciplinary field to date. As physical chemistry joins …

The balance of redox homeostasis is key to stem cell maintenance and differentiation.
However, this balance is disrupted by the overproduced reactive oxygen species (ROS) in …

It is inevitable that, during their use, engineered nanoparticles will be released into soils and
waters. There is therefore increasing concern over the potential impacts of engineered …

The contemporary use of nanomedicines for cancer treatment has been largely limited to
serving as carriers for existing therapeutic agents. Here, we provide definitive evidence that …

Aqueous solutions of highly stable supramolecular donor–acceptor complexes of chemically
nonmodified pristine C60 fullerene molecules with H2O molecules (hydrated C60 fullerene …

Abstract Hydroxylated C 60 Fullerene (Fullerol) induced photochemical production of
reactive oxygen species (ROS, eg singlet oxygen (1 O 2) and hydroxyl radical (radical dot …