The interaction of nanomaterials with cells and lipid bilayers is critical in many applications
such as phototherapy, imaging, and drug/gene delivery. These applications require a firm …

The interactions between nanosized particles and living systems are commonly mediated by
what adsorbs to the nanoparticle in the biological environment, its biomolecular corona …

The nanoparticle (nano)–cell membrane interface is one of the most important interactions
determining the fate of nanoparticles (NPs), which can stimulate a series of biological …

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 …

An enhanced understanding about the interactions between nanomaterials and cell
membranes may have important implications for biomedical applications. In this work …

Control of interactions between nanoparticles and biosystems is essential for the effective
utilization of these materials in biomedicine. A wide variety of nanoparticle surface structures …

Surface recognition of biosystems is a critical component in the development of novel
biosensors and delivery vehicles, and for the therapeutic regulation of biological processes …

Surface properties dictate the behavior of nanomaterials in vitro, in vivo, and in the
environment. Such properties include surface charge and hydrophobicity. Also key are more …

The exterior surface of nanoparticles (NPs) dictates the behavior of these systems with the
outside world. Understanding the interactions of the NP surface functionality with biosystems …

Understanding the interaction between functional nanoparticles and cell membranes is
critical to use nanomaterials for broad biomedical applications with minimal cytotoxicity. In …