Insertion of Nanoparticle Clusters into Vesicle Bilayers

A major contemporary concern in developing eective liposomeÀnanoparticle hybrids is the present inclusion size limitation of nanoparticles between vesicle bilayers, which is considered to be around 6.5 nm in diameter. In this article, we present experimental observations backed by theoretical considerations which show that greater structures can be incorporated within vesicle membranes by promoting the clustering of nanoparticles before liposome formation. Cryo-transmission electron microscopy and cryo-electron tomography conrm these observations at unprecedented detail and underpin that the liposome membranes can accommodate exible structures of up to 60 nm in size. These results imply that this material is more versatile in terms of inclusion capabilities and consequently widens the opportunities in developing multivalent vesicles for nanobiotechnology applications.

Insertion of Nanoparticle Clusters into Vesicle Bilayers

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In Situ and Time-Resolved Transmission Electron Microscopy of Nanoscale Processes

In Situ and Time-Resolved Transmission Electron Microscopy of Nanoscale Processes

Cholesterol-Containing Liposomes Decorated With Au Nanoparticles as Minimal Tunable Fusion Machinery

Polydopamine-coated photoautotrophic bacteria for improving extracellular electron transfer in living photovoltaics