Effect of surface properties on nanoparticle–cell interactions
A Verma, F Stellacci - small, 2010 - Wiley Online Library
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 …
such as phototherapy, imaging, and drug/gene delivery. These applications require a firm …
Nanoparticle adhesion to the cell membrane and its effect on nanoparticle uptake efficiency
The interactions between nanosized particles and living systems are commonly mediated by
what adsorbs to the nanoparticle in the biological environment, its biomolecular corona …
what adsorbs to the nanoparticle in the biological environment, its biomolecular corona …
Nanoparticle ligand exchange and its effects at the nanoparticle–cell membrane interface
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 …
determining the fate of nanoparticles (NPs), which can stimulate a series of biological …
Applications of nanoparticles in biology
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 an excellent platform for a broad range of biological and biomedical …
Nanoparticle translocation through a lipid bilayer tuned by surface chemistry
An enhanced understanding about the interactions between nanomaterials and cell
membranes may have important implications for biomedical applications. In this work …
membranes may have important implications for biomedical applications. In this work …
Surface functionalization of nanoparticles for nanomedicine
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 …
utilization of these materials in biomedicine. A wide variety of nanoparticle surface structures …
Beauty is skin deep: a surface monolayer perspective on nanoparticle interactions with cells and bio‐macromolecules
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 …
biosensors and delivery vehicles, and for the therapeutic regulation of biological processes …
The role of surface functionality in determining nanoparticle cytotoxicity
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 …
environment. Such properties include surface charge and hydrophobicity. Also key are more …
25th anniversary article: interfacing nanoparticles and biology: new strategies for biomedicine
GY Tonga, K Saha, VM Rotello - Advanced Materials, 2014 - Wiley Online Library
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 …
outside world. Understanding the interactions of the NP surface functionality with biosystems …
Disruption of supported lipid bilayers by semihydrophobic nanoparticles
B Jing, Y Zhu - Journal of the American Chemical Society, 2011 - ACS Publications
Understanding the interaction between functional nanoparticles and cell membranes is
critical to use nanomaterials for broad biomedical applications with minimal cytotoxicity. In …
critical to use nanomaterials for broad biomedical applications with minimal cytotoxicity. In …
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