about
Vibrational lifetimes of cyanide and carbon monoxide on noble and transition metal surfaces.An advanced molecule-surface scattering instrument for study of vibrational energy transfer in gas-solid collisions.Generation of tunable narrow bandwidth nanosecond pulses in the deep ultraviolet for efficient optical pumping and high resolution spectroscopy.Vibrational Excitation of H2 Scattering from Cu(111): Effects of Surface Temperature and of Allowing Energy Exchange with the Surface.State-to-state dynamics at the gas-liquid metal interface: rotationally and electronically inelastic scattering of NO[2Π(1/2)(0.5)] from molten gallium.Multiquantum vibrational excitation of NO scattered from Au(111): quantitative comparison of benchmark data to ab initio theories of nonadiabatic molecule-surface interactions.Production of a beam of highly vibrationally excited CO using perturbations.Apparent failure of the Born-Oppenheimer static surface model for vibrational excitation of molecular hydrogen on copper.Coupling scanning tunneling microscope and supersonic molecular beams: a unique tool for in situ investigation of the morphology of activated systems.Electron transfer dynamics and excited state branching in a charge-transfer platinum(II) donor-bridge-acceptor assembly.Toward control of electron transfer in donor-acceptor molecules by bond-specific infrared excitation.On the mechanism of vibrational control of light-induced charge transfer in donor-bridge-acceptor assemblies.Molecular catalysis science: Perspective on unifying the fields of catalysisTwo distinctive energy migration pathways of monolayer molecules on metal nanoparticle surfacesObservation of orientation-dependent electron transfer in molecule-surface collisionsLiquid-phase catalytic reactor combined with measurement of hot electron flux and chemiluminescence.Quantum and classical dynamics of reactive scattering of H2 from metal surfaces.Angle-resolved molecular beam scattering of NO at the gas-liquid interface.Ni-doped TiO2 nanotubes for wide-range hydrogen sensing.Electronically non-adiabatic influences in surface chemistry and dynamics.Tuning the Electronic Coupling and Electron Transfer in Mo2 Donor-Acceptor Systems by Variation of the Bridge Conformation.The importance of accurate adiabatic interaction potentials for the correct description of electronically nonadiabatic vibrational energy transfer: a combined experimental and theoretical study of NO(v = 3) collisions with a Au(111) surface.The non-ergodic nature of internal conversion.Quantum state resolved velocity-map imaging spectroscopy: a new tool for collision dynamics at gas/self-assembled monolayer interfaces.Conversion of large-amplitude vibration to electron excitation at a metal surface.Observation of direct vibrational excitation in gas-surface collisions of CO with Au(111): a new model system for surface dynamics.State-resolved velocity map imaging of surface-scattered molecular flux.On the temperature dependence of electronically non-adiabatic vibrational energy transfer in molecule-surface collisions.Inverse velocity dependence of vibrationally promoted electron emission from a metal surface.Vibrationally promoted electron emission from low work-function metal surfaces.Efficient vibrational and translational excitations of a solid metal surface: State-to-state time-of-flight measurements of HCl(v=2,J=1) scattering from Au(111).The catalytic nanodiode: detecting continuous electron flow at oxide-metal interfaces generated by a gas-phase exothermic reaction.Vibrationally promoted electron emission at a metal surface: electron kinetic energy distributions.Evolution of the surface science of catalysis from single crystals to metal nanoparticles under pressure.Molecular factors of catalytic selectivity.Vibrational lifetimes of hydrogen on lead films: an ab initio molecular dynamics with electronic friction (AIMDEF) study.Preface to special topic: a survey of some new developments in heterogeneous catalysis.Vibrational relaxation at a metal surface: Electronic friction versus classical master equations.Vibrational coupling in plasmonic molecules.Achieving partial decoherence in surface hopping through phase correction.
P2860
Q33303228-01E3F1F3-58BB-452B-A4E2-86BC02FCB0D0Q33304838-E9CB6D92-64EB-4AE8-B9CF-D964E41AEAB2Q33621632-F73DB55D-5F5A-4363-8E93-E99059540928Q33903728-AA636E25-387E-4F23-A305-45DE7FCC48AAQ33942247-37B1CF50-B20F-42C2-BF5C-767B9D149DCAQ34226508-08AF4EC5-CA6A-4E13-BF96-42EB24E4E24AQ34304175-034BD629-DBB0-4076-8E07-9C46A9FFDF0FQ34397369-86B2CE45-E246-4FA0-9EF3-2376EA19D5EBQ34423908-0F2EB940-87FA-413F-9134-1FEF8D093B50Q35383609-F5F046DC-65EA-41BD-83C7-725D1DF32678Q35530599-1B67A183-034E-4E6D-B10E-AB8944BD3E33Q35751382-D956CC5F-3459-450B-9077-27B3E10FCEF7Q35999115-4831625D-8CCA-4931-9129-31F0D238BB9FQ36591257-3C3F863F-56EA-46DD-AD03-5D9DDD6F31EFQ37276653-E338FD2F-43D9-4AF5-A3F7-2E2C10EF82C9Q38408023-F85B5740-AC95-4AE6-9001-CB4302C738A1Q38559418-C9D72C4E-DCC1-4A1E-A393-CA530728A1C2Q38633623-0033796C-810D-4822-8313-31A78BAA8B1FQ38722307-F50D8549-DAE2-470A-8C40-96EE36875857Q38827419-6179395D-E45D-4AB7-976E-3770F238CE3FQ40064930-7B469247-1418-4175-AE01-88BFB87A30C7Q41452847-8A8232F0-F6E0-411F-A09F-43E03A20A8C1Q43445492-6ACD1E4A-8CFB-45B7-9BFE-EF5F37C4F96AQ43449859-E99FA052-2932-4F4A-9AC6-4425C95A572BQ44391922-876D4840-5949-4463-B4BD-F9BDAAFF5E12Q45354864-9212A9F6-F7C0-4325-A683-3E0DC1E8BBDEQ45730433-0C27251C-2DF0-45E6-8FC1-06A5D48E7750Q45932401-7DD428B3-C191-4BE7-AB5A-63B90A145644Q45997927-55AC2F3F-A35F-41FB-988A-2D5DD469A901Q46030344-E756CD24-3FFC-465F-864E-C6151DE3C302Q46367025-09A78DFF-4E3D-42BE-A4BF-EA4D0558FD7FQ46399709-F4C2CD7C-5CFD-420B-96E4-F6D09BCEDFECQ46414109-69F6306C-D614-4CE0-906F-FB027F843BA3Q46557525-E62016FB-60B3-45E0-875E-CA0D817A0A06Q46626893-B662B501-93EA-4760-9E64-1DAC44699DF4Q46796229-2EDFB3A3-2659-4C24-B79D-6279B2BF4A45Q46951355-B0DA7D4E-D9F1-4D67-ABF5-B06CF9095B54Q47301827-9F9915AB-7D13-4953-965D-D17CC19A6B8CQ47403073-15D72195-CAD2-4A7C-A2B4-1F2B96917E28Q49032093-524C1F6D-C397-4F89-BC3A-415C90DAE55E
P2860
description
2000 nî lūn-bûn
@nan
2000 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
Vibrational promotion of electron transfer.
@ast
Vibrational promotion of electron transfer.
@en
type
label
Vibrational promotion of electron transfer.
@ast
Vibrational promotion of electron transfer.
@en
prefLabel
Vibrational promotion of electron transfer.
@ast
Vibrational promotion of electron transfer.
@en
P1433
P1476
Vibrational promotion of electron transfer
@en
P2093
P304
P356
10.1126/SCIENCE.290.5489.111
P407
P577
2000-10-01T00:00:00Z