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Molecular electronic component for construction of nanoscale electronic circuits comprises a redox active unit with an electron donor and an electron acceptor with permanent contact points for connection to or components
Molecular electronic component for construction of nanoscale electronic circuits comprises a redox active unit with an electron donor and an electron acceptor with permanent contact points for connection to or components
A molecular electronic component for the construction of nanoscale electronic circuits comprises a redox active unit with an electron donor and an electron acceptor whereby the electron donor and acceptor have permanent contact points for connection to or components. A molecular electronic component (I) for the construction of nanoscale electronic circuits comprises a redox active unit with an electron donor (D) and an electron acceptor (A) whereby the electron donor and acceptor have a contact point (K 1, K 2) for connection to or components and the contact points (K 1, K 2) enable charge transport to and from the component (I) such that (K 1) and (K 2) are permanent contact points allowing the transport of charge via permanent chemical bonds whereby the contact points comprises one of the bonding parties of the chemical bond. [Image] Independent claims are included for: (1) a molecular electronic module (II) comprising at least two components (I) connected via contact points; (2) an electronic circuit (III) comprising at least one component (I) or module (II) whereby at least one component (I) is connected to an electrically conductive surface, preferably by covalent bonding or specific adsorption; (3) processes for production of electronic circuits (III) in solution by either; (a) forming a module (II) from derived number of components (I) in a stepwise manner and applying module onto an electrically conductive surface; or (b) connecting a component (I) to an electrically conductive surface followed by step-wise addition of further components (I) to form desired circuit.
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