The influence of directing agents in the self-assembly of molecular wires to produce two-dimensional electronic nanoarchitectures is studied here using a Monte Carlo approach to simulate the effect of arbitrarily locating nodal points on a surface, from which the growth of self-assembled molecular wires can be nucleated. This is compared to experimental results reported for the self-assembly of molecular wires when 1,4-phenylenediisocyanide (PDI) is adsorbed on Au(111). The latter results in the formation of (Au-PDI)n organometallic chains, which were shown to be conductive when linked between gold nanoparticles on an insulating substrate. The present study analyzes, by means of stochastic methods, the influence of variables that affect the...
The development of science and technology of advanced materials using nanoscale units can be conduct...
Active research of supramolecular chemistry on surfaces started together with the invention of the s...
The demand for more powerful computers have been increasing ever since the first semiconducting devi...
The influence of directing agents in the self-assembly of molecular wires to produce two-dimensional...
The design of molecular electronic circuits will require the development of strategies for making co...
The design of molecular electronic circuits will require the development of strategies for making co...
The rational fabrication of low-dimensional materials with a well-defined topology and functions is ...
Creation of two-dimensional superstructures using coordination chemistry principles is a promising m...
We use the Monte Carlo simulation method to study the self-assembly of model cross-shaped molecules ...
The field of molecular electronics is generally divided into one of two major categories, the first ...
The focus of the research that has been conducted for this report describes progress made (1) toward...
Supramolecular nanostructures with tunable dimensionalities are fabricated by deposition of benzene-...
The growth of self-assembled nanowires on stepped substrates is modeled by means of kinetic Monte Ca...
Supramolecular nanostructures with tunable dimensionalities are fabricated by deposition of benzene–...
A stochastic model which may be used to analyze the formation of bonds connecting the interface form...
The development of science and technology of advanced materials using nanoscale units can be conduct...
Active research of supramolecular chemistry on surfaces started together with the invention of the s...
The demand for more powerful computers have been increasing ever since the first semiconducting devi...
The influence of directing agents in the self-assembly of molecular wires to produce two-dimensional...
The design of molecular electronic circuits will require the development of strategies for making co...
The design of molecular electronic circuits will require the development of strategies for making co...
The rational fabrication of low-dimensional materials with a well-defined topology and functions is ...
Creation of two-dimensional superstructures using coordination chemistry principles is a promising m...
We use the Monte Carlo simulation method to study the self-assembly of model cross-shaped molecules ...
The field of molecular electronics is generally divided into one of two major categories, the first ...
The focus of the research that has been conducted for this report describes progress made (1) toward...
Supramolecular nanostructures with tunable dimensionalities are fabricated by deposition of benzene-...
The growth of self-assembled nanowires on stepped substrates is modeled by means of kinetic Monte Ca...
Supramolecular nanostructures with tunable dimensionalities are fabricated by deposition of benzene–...
A stochastic model which may be used to analyze the formation of bonds connecting the interface form...
The development of science and technology of advanced materials using nanoscale units can be conduct...
Active research of supramolecular chemistry on surfaces started together with the invention of the s...
The demand for more powerful computers have been increasing ever since the first semiconducting devi...