about
Coupling carbon nanomaterials with photochromic molecules for the generation of optically responsive materialsA combined experimental and theoretical study on realizing and using laser controlled torsion of molecules.Optical switching of radical pair conformation enhances magnetic sensitivity.Using the Chebychev expansion in quantum transport calculations.Density Functional Theory for Steady-State Nonequilibrium Molecular Junctions.Single molecule electronic devices.Photo-responsive carbon nanomaterials functionalized by azobenzene moieties: structures, properties and application.Recent advances towards azobenzene-based light-driven real-time information-transmitting materialsTowards single molecule switches.Current-voltage characteristics of single-molecule diarylethene junctions measured with adjustable gold electrodes in solution.Spin-filtering and rectification effects in a Z-shaped boron nitride nanoribbon junction.Toward functional molecular devices based on graphene-molecule junctions.Conductance switching in diarylethenes bridging carbon nanotubes.Activation volumes for cis-to-trans isomerisation reactions of azophenols: a clear mechanistic indicator?Azobenzene photoswitches in bulk materials.Ultrathin reduced graphene oxide films as transparent top-contacts for light switchable solid-state molecular junctions.New heterocyclic systems to afford microsecond green-light isomerisable azo dyes and their use as fast molecular photochromic switches.Photochromism into nanosystems: towards lighting up the future nanoworld.A light-driven modulation of electric conductance through the adsorption of azobenzene onto silicon-doped- and pyridine-like N3-vacancy graphene.A quantitative analysis of light-driven charge transfer processes using voronoi partitioning of time dependent DFT-derived electron densities.A cationic azobenzene-surfactant-modified graphene hybrid: unique photoresponse and electrochemical behavior.An efficient nonequilibrium Green's function formalism combined with density functional theory approach for calculating electron transport properties of molecular devices with quasi-one-dimensional electrodes.Photocontrolled On-Surface Pseudorotaxane Formation with Well-Ordered Macrocycle Multilayers.Microscopic model of the optical absorption of carbon nanotubes functionalized with molecular spiropyran photoswitches.Molecular Rotors as Switches.Treatment of time-dependent effects in molecular junctionsTime-Dependent View of Sequential Transport through Molecules with Rapidly Fluctuating BridgesReversible Switching Phenomenon in Diarylethene Molecular Devices with Reduced Graphene Oxide Electrodes on Flexible SubstratesStrongly driven quantum pendulum of the carbonyl sulfide molecule
P2860
Q26749282-3231ADAE-0FE8-4FF0-B13F-10DA66559B00Q33472864-54063A51-95A7-4711-A20B-AA117693CCCAQ35222146-D5F69C53-9042-4A94-B28C-583FB3079F9FQ35612123-73A37B35-86A4-44A3-9AA6-A20CF0115FF7Q36168433-7CD9F548-D203-4576-A522-117E8D19C505Q37835194-99902E42-2560-4C83-B610-0FBA44710401Q38036927-7BB6B4FE-C097-4E76-B0CA-8CAEA66917AAQ38047282-64177F6E-678F-4457-9929-580528ECE44FQ38372269-1C3EF9CC-4CFC-42C8-BC91-D2ABB495735DQ42240584-FF99A541-2AF2-4038-983E-54ED27D9E057Q44447451-567854EC-1C50-4A5D-80D9-83286B9A8903Q45801813-4E80B46A-5E64-4D39-BBC2-6B5F103776E6Q46153111-736AE60B-5FDE-49B7-9EC7-93044BC22B4CQ46237675-B04D6613-1C63-4D87-A792-8FF479B65F47Q46319258-378030D8-67EC-4A9B-82FF-7B18C65D6DF4Q46348712-BC8A6F0B-C807-4D2A-9A3B-5FEF8C2236F6Q46727888-AD2B0F6B-A5C6-4B0B-9D8E-7CBD8446A16EQ47240597-3880701A-E4F0-42D7-87B3-002E59C8EFFDQ47303701-ECF21D13-D602-479A-A403-31893BABA177Q48060718-45FD2077-4D42-4F4C-9557-76DB1A8E3B79Q50207418-BE57A212-E08E-4E36-AFBC-5012E4644B03Q50857248-031C6508-F957-4FA7-ADF0-ABE431CECD2EQ52848507-D5EAE19A-7BC3-4F88-9121-3E90FDBCFF37Q52897239-094B48DF-3A42-48FC-859C-5218E9DA963FQ55556229-971C9799-3EA3-42BD-BE9A-D7C922EE3403Q57907330-6F07A5CC-117E-4775-8DED-6D7A141F12AAQ57907334-49BB7E8E-C8B6-4699-80DB-6D4CCF852F8BQ57922996-8FE67DFE-F6D8-4EF2-A28A-B7080DCCFC0DQ58362410-02340E1D-D0C9-4F4C-AA10-9E5E6B5EE12E
P2860
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
Tuning the conductance of a molecular switch.
@en
Tuning the conductance of a molecular switch.
@nl
type
label
Tuning the conductance of a molecular switch.
@en
Tuning the conductance of a molecular switch.
@nl
prefLabel
Tuning the conductance of a molecular switch.
@en
Tuning the conductance of a molecular switch.
@nl
P2093
P356
P1476
Tuning the conductance of a molecular switch.
@en
P2093
Carlos Tejedor
Miriam Del Valle
Rafael Gutiérrez
P2888
P304
P356
10.1038/NNANO.2007.38
P577
2007-03-04T00:00:00Z