The utilization of nanomaterials in the biological and medical field is quickly progressing,
particularly in areas where traditional diagnostics and treatment approaches have limited …

Understanding the interactions of nanoparticles (NPs) with cells and how these interactions
influence their cellular uptake is essential to exploring the biomedical applications of NPs …

Improved understanding of interactions between nanoparticles and biological systems is
needed to develop safety standards and to design new generations of nanomaterials. This …

Nanoparticle science is rapidly changing the landscape of various scientific fields and
defining new technological platforms. This is perhaps even more evident in the field of …

Nanoparticles (NP) are attractive options for the therapeutic delivery of active
pharmaceutical drugs, proteins and nucleic acids into cells, tissues and organs. Research …

With the rapid advancement of nanoscience and nanotechnology, detailed knowledge of
interactions between engineered nanomaterials and cells, tissues and organisms has …

This article focuses on how nanoparticle shape affects the cellular internalisation and
transport of nanoparticles inside cells and what the different analytical methods for …

Although a growing number of innovations have emerged in the fields of nanobiotechnology
and nanomedicine, new engineered nanomaterials (ENMs) with novel physicochemical …

The wide variety of core materials available, coupled with tunable surface properties, make
nanoparticles an excellent platform for a broad range of biological and biomedical …

Nanoparticles (NPs) are materials with overall dimensions in the nanoscale range. They
have unique physicochemical properties, and have emerged as important players in current …