Measurement of single-molecule resistance by repeated formation of molecular junctions.
about
Rigid multipodal platforms for metal surfacesProximity effect in a superconductor-metallofullerene-superconductor molecular junctionProtein self-assembly onto nanodots leads to formation of conductive bio-based hybridsComplex formation dynamics in a single-molecule electronic deviceSingle molecule electronics and devices.A 16-bit parallel processing in a molecular assembly.Unsupervised vector-based classification of single-molecule charge transport dataTunneling rates in electron transport through double-barrier molecular junctions in a scanning tunneling microscope.Noble metal nanoparticles deposited on self-assembled monolayers by pulsed laser deposition show coulomb blockade at room temperature.Interfacial bridge-mediated electron transfer: mechanistic analysis based on electrochemical kinetics and theoretical modelling.Generalized survival in step fluctuations.Conductance of a single conjugated polymer as a continuous function of its length.Controlled single atom and single molecule contacts.Note: A simple, convenient, and reliable method to prepare gold scanning tunneling microscope tips.Single-Molecule Conductance Studies of Organometallic Complexes Bearing 3-Thienyl Contacting GroupsSingle-molecule electrical contacts on silicon electrodes under ambient conditions.Detecting Electron Transport of Amino Acids by Using Conductance Measurement.Quantum interference and heteroaromaticity of para- and meta-linked bridged biphenyl units in single molecular conductance measurementsHigh conductance values in π-folded molecular junctions.Tuning the polarity of charge carriers using electron deficient thiophenes.Reversible on-surface wiring of resistive circuitsEffect of H2O Adsorption on Negative Differential Conductance Behavior of Single JunctionProbing pi-coupling in molecular junctions.Mechanisms for DNA charge transportMolecular computing: paths to chemical Turing machines.In situ electrochemical distance tunneling spectroscopy of ds-DNA molecules.A core-shell strategy for constructing a single-molecule junction.Recognition tunnelingCharge transport and rectification in molecular junctions formed with carbon-based electrodesLong-range protein electron transfer observed at the single-molecule level: In situ mapping of redox-gated tunneling resonanceSingle-molecule conductance of π-conjugated rotaxane: new method for measuring stipulated electric conductance of π-conjugated molecular wire using STM break junction.Long-range electron tunnelling in oligo-porphyrin molecular wires.A detailed experimental and theoretical study into the properties of C60 dumbbell junctions.Bacteriorhodopsin (bR) as an electronic conduction medium: current transport through bR-containing monolayersConductance of a biomolecular wire.Measurements of contact specific low-bias negative differential resistance of single metalorganic molecular junctions.Chain length and temperature dependence of alkanedithiol molecular conductance under ultra high vacuum.Revealing the molecular structure of single-molecule junctions in different conductance states by fishing-mode tip-enhanced Raman spectroscopy.Molecular diodes enabled by quantum interference.An MCBJ case study: The influence of π-conjugation on the single-molecule conductance at a solid/liquid interface.
P2860
Q26747581-9FD1C140-CFD0-46DB-A66A-2E8E6F9D4F81Q27440667-F8FCEADA-7A74-40A5-A65B-D861108CAB28Q28395886-F8C61DD5-CE5D-463A-A7FC-B0EBF277F744Q28818335-65365ECD-B259-4B25-ADFE-503363AC6B88Q30463777-F9FD54F4-84A6-4688-9C0F-19B2A8C02FDEQ30481512-9213D057-978C-4FE2-B49F-1AF840AEB567Q31134334-AE787518-A29C-42B7-AA1C-9001AFEE11C3Q33217126-4176AF7B-3E4D-4AD0-9354-86FE08C66AA2Q33267798-4814EC82-5BBE-4F92-AF16-53ACA209BB9FQ33270017-051E198C-6B0F-4A7D-B9C7-4BDED3FD234FQ33302307-B3099FDF-270F-4703-8860-590D57237DF8Q33413575-C7AF3B67-9558-4336-BAAF-8C67F00CCC0EQ33525924-CB76AE39-BEE7-45A4-BAE0-4674834CDC89Q33527531-471154BE-72B4-4647-98EF-977931C76F91Q33578343-907440A7-8441-4C31-AC2A-64393254BD35Q33587045-77714D5B-5DA1-4621-A741-232170626075Q33649587-B2B7B319-8ACE-47FC-AACB-E06A44AA8FFDQ33686750-FA1856D4-6EDD-41C5-A1FF-A8638131BE81Q33753778-886D54E1-C131-4AB5-909A-FA72CCC784E6Q33782623-F4928AFD-A5F9-44A2-A5C8-D487D2EF1F4FQ33802483-7891A645-329E-403D-8CC8-EDE3B77881CBQ33830216-34617230-6CC8-42B9-913B-F24721938E12Q33863131-4333C70B-361E-41AD-A0A6-CCBF3B3E4B2CQ33887276-E482787B-3247-4DA4-9A6F-75F10D14201EQ33892107-0AFBDF4B-FEEB-41AE-81D4-86D5855344B9Q33920660-9DA089E8-99A3-4146-AEE9-4593EDF7EC73Q33927716-6ACA5B5B-1535-4DCA-B733-A5EB18EA36F5Q33940523-8D5202D4-6E1D-45D5-92A3-D593C76E15D1Q34002463-14C8B154-BC4A-437B-A814-457049CA8390Q34114464-E78E8A9C-DD4C-4FAC-9D51-B0E13AFB1A8DQ34120186-F86C8CAA-1C49-47A1-8F8E-B94AEDF8B708Q34205151-C4F7875D-ADF7-4ECB-99E6-FD2DDF9BF145Q34695196-51497CF0-C107-44F8-AB12-7207BDB22183Q34695236-53D8FBF9-421F-40DB-AD09-3B23DA01FEC8Q34695344-AEFF7A59-66CB-4338-AC08-41C69DF2DDB1Q34742697-D421A420-9DA9-457A-B529-D09D189303E5Q34957165-DCE358A6-1236-45F6-B5AD-9E340E8E280BQ35038919-8166D71F-937F-4540-B035-44258796109FQ35288619-3BFAF401-8705-49D4-8E9F-B247B45E4718Q35445019-AD5CB96C-1824-4C19-A771-5F6D134A8F57
P2860
Measurement of single-molecule resistance by repeated formation of molecular junctions.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
2003年學術文章
@zh-hant
name
Measurement of single-molecule resistance by repeated formation of molecular junctions.
@en
Measurement of single-molecule resistance by repeated formation of molecular junctions.
@nl
type
label
Measurement of single-molecule resistance by repeated formation of molecular junctions.
@en
Measurement of single-molecule resistance by repeated formation of molecular junctions.
@nl
prefLabel
Measurement of single-molecule resistance by repeated formation of molecular junctions.
@en
Measurement of single-molecule resistance by repeated formation of molecular junctions.
@nl
P356
P1433
P1476
Measurement of single-molecule resistance by repeated formation of molecular junctions.
@en
P2093
Bingqian Xu
Nongjian J Tao
P304
P356
10.1126/SCIENCE.1087481
P407
P577
2003-08-01T00:00:00Z