نتایج جستجو برای: molecular electronics
تعداد نتایج: 715060 فیلتر نتایج به سال:
It has recently been suggested that under some circumstances computers based on molecular interactions may be a viable alternative to computers based on electronics. Here, some practical aspects of constructing a molecular computer are considered.
The phenomenon of quantum mechanical interference may be used to control the conductivity of ballistic molecular wires. Using a simple model we demonstrate plausible effects and discuss its potential uses for constructing coherence-based molecular electronics.
Introduction Molecular electronics is one of a number of competing approaches to the problem of employing nanotechnology to increase the performance of electronic devices. Molecules possess some potential advantages for nanoelectronics: chemistry offers a unique ability to tailor features at the nanoscale, molecules may be semiconducting, they can de designed to assemble on specific sites in a ...
Introduction: Most modern electronic devices are solid state devices, the active components of which are constructed essentially entirely of inorganic materials. To date, and excepting important applications such as photo-resists in lithography, organic materials have played a rather secondary role in this technology. This situation is changing and considerable interest has developed in the pas...
This review briefly describes the development of molecular electronics in the application of non-volatile memory. Molecules, especially redox-active molecules, have become interesting due to their intrinsic redox behavior, which provides an excellent basis for low-power, high-density and high-reliability non-volatile memory applications. Recently, solid-state non-volatile memory devices based o...
The combination of their electronic properties and dimensions makes carbon nanotubes ideal building blocks for molecular electronics. However, the advancement of carbon nanotube-based electronics requires assembly strategies that allow their precise localization and interconnection. Using a scheme based on recognition between molecular building blocks, we report the realization of a self-assemb...
With the size of electronic devices approaching the nanometer scale, transition to self-assembly in molecular electronics systems appears to be technologically the next step to pursue. Quantum conductors with an especially high potential for applications are organic polymers and carbon nanotubes. The latter are being considered for use as both nonlinear electronic devices and as connectors betw...
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