Add to ORKGMonolayers composed of colloidal nanoparticles, with thickness less than ten nanometers, have remarkable mechanical strength and can suspend over micron-sized holes to form free-standing membranes. We discuss experiments probing the tensile strength and bending stiffness of these self-assembled nanoparticle sheets. The fracture behavior of monolayers and multilayers is investigated by attaching them to elastomer substrates which are then stretched. For different applied strain the fracture patterns are imaged down to the scale of single particles. The resulting detailed information about the crack width distribution allows us to relate the measured overall tensile strength to the distribution of local bond strengths within a layer. We then ...
Title: Theoretical studies of rolled-up and wrinkled nanomembranes Author: Mgr. Peter Cendula Depart...
Journal ArticleWe demonstrate, by theoretical analysis and molecular dynamics simulation, a mechanis...
Abstract Free-standing nanomembranes are two-dimensional materials with nanometer thickness but can ...
We present an experimental investigation of fracture in self-assembled gold nanoparticle mono- and m...
Ultrathin membranes composed of metallic or semiconducting nanoparticles capped with short ligand mo...
This dissertation presents studies on self-assembly of nanoparticles adsorbed onto fluid and elastic...
Nanoparticle monolayer sheets are ultrathin inorganic-organic hybrid materials that combine highly c...
Ultra-thin nanoparticle (NP) membranes are self-assembled hybrid materials that have attracted cons...
The elastic properties of graphene crystals have been extensively investigated, revealing unique pro...
In this thesis we explore two specific topics within the broad field of particle adhesion. First, we...
As nanotechnology continues to push the boundaries across disciplines, there is an increasing need f...
Research on nanomembranes and graphene sheets represents the "third wave" of work on nanomaterials, ...
We demonstrate how gold nanoparticle monolayers can be curled up into hollow scrolls that make it po...
AbstractIn this paper we investigate, both experimentally and theoretically, the competition between...
This thesis proposes a novel design of nanoparticles for drug delivery. By tethering a bilayer membr...
Title: Theoretical studies of rolled-up and wrinkled nanomembranes Author: Mgr. Peter Cendula Depart...
Journal ArticleWe demonstrate, by theoretical analysis and molecular dynamics simulation, a mechanis...
Abstract Free-standing nanomembranes are two-dimensional materials with nanometer thickness but can ...
We present an experimental investigation of fracture in self-assembled gold nanoparticle mono- and m...
Ultrathin membranes composed of metallic or semiconducting nanoparticles capped with short ligand mo...
This dissertation presents studies on self-assembly of nanoparticles adsorbed onto fluid and elastic...
Nanoparticle monolayer sheets are ultrathin inorganic-organic hybrid materials that combine highly c...
Ultra-thin nanoparticle (NP) membranes are self-assembled hybrid materials that have attracted cons...
The elastic properties of graphene crystals have been extensively investigated, revealing unique pro...
In this thesis we explore two specific topics within the broad field of particle adhesion. First, we...
As nanotechnology continues to push the boundaries across disciplines, there is an increasing need f...
Research on nanomembranes and graphene sheets represents the "third wave" of work on nanomaterials, ...
We demonstrate how gold nanoparticle monolayers can be curled up into hollow scrolls that make it po...
AbstractIn this paper we investigate, both experimentally and theoretically, the competition between...
This thesis proposes a novel design of nanoparticles for drug delivery. By tethering a bilayer membr...
Title: Theoretical studies of rolled-up and wrinkled nanomembranes Author: Mgr. Peter Cendula Depart...
Journal ArticleWe demonstrate, by theoretical analysis and molecular dynamics simulation, a mechanis...
Abstract Free-standing nanomembranes are two-dimensional materials with nanometer thickness but can ...