Add to ORKGElectronic transport across n-Si-alkyl monolayer/Hg junctions is, at reverse and low forward bias, independent of alkyl chain length from 18 down to 1 or 2 carbons! This and further recent results indicate that electron transport is minority, rather than majority carrier dominated, occurs via generation and recombination, rather than (the earlier assumed) thermionic emission, and, as such, is rather insensitive to interface properties. The (m)ethyl results show that binding organic molecules directly to semiconductors provides semiconductor/metal interface control options, not accessible otherwise
Electron transport through metal-molecule-metal junctions has been widely studied both experimentall...
We compare the charge transport characteristics of heavy-doped p(++)- and n(++)-Si-alkyl chain/Hg ju...
We compare the charge transport characteristics of heavy-doped p ++- and n ++-Si-alkyl chain/Hg junc...
Electronic transport across n-Si-alkyl monolayer/Hg junctions is, at reverse and low forward bias, i...
Metal-organic molecule-semiconductor junctions are controlled not only by the molecular properties, ...
International audienceWe report the synthesis and characterization of molecular rectifying diodes on...
International audienceWe report the synthesis and characterization of molecular rectifying diodes on...
International audienceWe report the synthesis and characterization of molecular rectifying diodes on...
Molecular control over charge transport across a metal/semiconductor interface persists even if ther...
Single-molecule devices potentially offer a promising future for next-generation electronics. Unders...
Molecular control over charge transport across a metal/semiconductor interface persists even if ther...
Metal/semiconductor (MS) junctions are fundamental in classical microelectronic devices. With device...
We assess the performances of the transition voltage spectroscopy (TVS) method to determine the ener...
We study how partial monolayers of molecular dipoles at semiconductor/metal interfaces can affect el...
Molecular monolayers at metal/semiconductor heterointerfaces affect electronic energy level alignmen...
Electron transport through metal-molecule-metal junctions has been widely studied both experimentall...
We compare the charge transport characteristics of heavy-doped p(++)- and n(++)-Si-alkyl chain/Hg ju...
We compare the charge transport characteristics of heavy-doped p ++- and n ++-Si-alkyl chain/Hg junc...
Electronic transport across n-Si-alkyl monolayer/Hg junctions is, at reverse and low forward bias, i...
Metal-organic molecule-semiconductor junctions are controlled not only by the molecular properties, ...
International audienceWe report the synthesis and characterization of molecular rectifying diodes on...
International audienceWe report the synthesis and characterization of molecular rectifying diodes on...
International audienceWe report the synthesis and characterization of molecular rectifying diodes on...
Molecular control over charge transport across a metal/semiconductor interface persists even if ther...
Single-molecule devices potentially offer a promising future for next-generation electronics. Unders...
Molecular control over charge transport across a metal/semiconductor interface persists even if ther...
Metal/semiconductor (MS) junctions are fundamental in classical microelectronic devices. With device...
We assess the performances of the transition voltage spectroscopy (TVS) method to determine the ener...
We study how partial monolayers of molecular dipoles at semiconductor/metal interfaces can affect el...
Molecular monolayers at metal/semiconductor heterointerfaces affect electronic energy level alignmen...
Electron transport through metal-molecule-metal junctions has been widely studied both experimentall...
We compare the charge transport characteristics of heavy-doped p(++)- and n(++)-Si-alkyl chain/Hg ju...
We compare the charge transport characteristics of heavy-doped p ++- and n ++-Si-alkyl chain/Hg junc...