Add to ORKGMetal nanoparticles coated with an organic monolayer, so-called monolayer protected clusters (MPCs), can show quantised charging at room temperature due to their sub-attofarad capacitance arising from the core size and the nature of the protecting monolayer. In this tutorial review, we examine the factors affecting the energetics of MPC charging. In the first section, the underlying physics of quantised charging is outlined and we give an overview of the various methods that can be used to measure single electron transfer to nanoparticles. In the subsequent sections, we discuss how electrochemical measurements can be used to give information on the quantised charging of freely diffusing and films of immobilised MPCs. The predictions of mode...
Gold nanoparticles protected by a monolayer of organothiolate molecules, with average formula Au38(S...
We present a simple yet absolute method for the assignment of the zero charge state of metal nanopar...
Understanding the electron transfer behavior of nanometer sized, both metallic and semiconducting pa...
A theoretical model based on electrostatic interactions is developed to account for the formal poten...
Quantized double layer capacitance charging is observed for monolayers of nanometer-sized monolayer ...
In this article, the effect of interparticle interactions of 4.63 nm sized monolayer protected gold ...
This article reports on the charging behavior of thin films of alkanethiol protected gold nanopartic...
We present the first kinetic study of quantised double layer charging of monolayer-protected gold cl...
We report, for the first time, symmetric (versus cluster potential of zero charge) charging of narro...
Electron transfer processes mediated by nanostructured materials assembled at electrode surfaces und...
We demonstrate that scanning electrochemical microscopy (SECM) can be used to determine the conducti...
Individual gold nanoparticles exhibit discrete capacitances of the order of 1 aF, and they can be te...
Understanding the electronic structure of nanometer-sized metal particles which bridge the gap betwe...
[EN] There is great interest in the use of Monolayer-Protected Gold Clusters (AuMPCs) as nanoscale c...
We studied the electronic transport properties of metal nanoparticle arrays, particularly focused on...
Gold nanoparticles protected by a monolayer of organothiolate molecules, with average formula Au38(S...
We present a simple yet absolute method for the assignment of the zero charge state of metal nanopar...
Understanding the electron transfer behavior of nanometer sized, both metallic and semiconducting pa...
A theoretical model based on electrostatic interactions is developed to account for the formal poten...
Quantized double layer capacitance charging is observed for monolayers of nanometer-sized monolayer ...
In this article, the effect of interparticle interactions of 4.63 nm sized monolayer protected gold ...
This article reports on the charging behavior of thin films of alkanethiol protected gold nanopartic...
We present the first kinetic study of quantised double layer charging of monolayer-protected gold cl...
We report, for the first time, symmetric (versus cluster potential of zero charge) charging of narro...
Electron transfer processes mediated by nanostructured materials assembled at electrode surfaces und...
We demonstrate that scanning electrochemical microscopy (SECM) can be used to determine the conducti...
Individual gold nanoparticles exhibit discrete capacitances of the order of 1 aF, and they can be te...
Understanding the electronic structure of nanometer-sized metal particles which bridge the gap betwe...
[EN] There is great interest in the use of Monolayer-Protected Gold Clusters (AuMPCs) as nanoscale c...
We studied the electronic transport properties of metal nanoparticle arrays, particularly focused on...
Gold nanoparticles protected by a monolayer of organothiolate molecules, with average formula Au38(S...
We present a simple yet absolute method for the assignment of the zero charge state of metal nanopar...
Understanding the electron transfer behavior of nanometer sized, both metallic and semiconducting pa...