Exciton binding energies in carbon nanotubes from two-photon photoluminescence
about
Cross-polarized optical absorption of single-walled nanotubes by polarized photoluminescence excitation spectroscopyElectronic and transport properties of nanotubesNanotubeâ Polymer Composites for Ultrafast PhotonicsEfficient near-infrared up-conversion photoluminescence in carbon nanotubes.Gate-controlled generation of optical pulse trains using individual carbon nanotubes.Cross-polarized excitons in carbon nanotubesExcitons in semiconducting carbon nanotubes: diameter-dependent photoluminescence spectra.Optoelectronic properties of single-wall carbon nanotubes.Spectroscopic characterization of the chiral structure of individual single-walled carbon nanotubes and the edge structure of isolated graphene nanoribbons.High energetic excitons in carbon nanotubes directly probe charge-carriers.Orbital-dependent Electron-Hole Interaction in Graphene and Associated Multi-Layer StructuresBright, long-lived and coherent excitons in carbon nanotube quantum dots.Exciton-exciton annihilation and relaxation pathways in semiconducting carbon nanotubes.Temperature effects on femtosecond transient absorption kinetics of semiconducting single-walled carbon nanotubes.Pure optical dephasing dynamics in semiconducting single-walled carbon nanotubes.Below-gap excitation of semiconducting single-wall carbon nanotubes.Carbon nanotubes as excitonic insulators.Photo-induced H2 evolution from water via the dissociation of excitons in water-dispersible single-walled carbon nanotube sensitizers.Model of finite-momentum excitons driven by surface plasmons in photoexcited carbon nanotubes covered by gold metal films.Photophysical comparative study of amylose and polyvinyle pyrrolidone/single walled carbon nanotubes complex.Non-markovian decoherence of localized nanotube excitons by acoustic phonons.Elucidation of the electronic structure of semiconducting single-walled carbon nanotubes by electroabsorption spectroscopy.Photoluminescence spectroscopy of carbon nanotube bundles: evidence for exciton energy transfer.Exciton-dominated optical response of ultra-narrow graphene nanoribbons.Excitons in carbon nanotubes with broken time-reversal symmetry.Exciton decay dynamics in individual carbon nanotubes at room temperatureCombined experimental andab initiostudy of the electronic structure of narrow-diameter single-wall carbon nanotubes with predominant (6,4),(6,5) chiralityTriplet–triplet exciton dynamics in single-walled carbon nanotubesAnalysing the photoluminescence intensities of single-walled carbon nanotubesExcitonic Rayleigh scattering spectra of metallic single-walled carbon nanotubesExcitonic absorption spectra of metallic single-walled carbon nanotubesExcitonic absorption spectra and ultrafast dephasing dynamics in arbitrary carbon nanotubesCarbon nanotube Bloch equations: A many-body approach to nonlinear and ultrafast optical propertiesCoulomb effects in single-walled carbon nanotubesTheory of Rayleigh scattering from metallic carbon nanotubesAnalytical approach to optical absorption in carbon nanotubesResonant-Raman intensities and transition energies of theE11transition in carbon nanotubesStrong electron-phonon coupling of the high-energy modes of carbon nanotubesTwo-photon photoluminescence and exciton binding energies in single-walled carbon nanotubesDielectric constant model for environmental effects on the exciton energies of single wall carbon nanotubes
P2860
Q21708412-F18CE896-BF88-4A28-A75E-9DA47C9D488FQ27349913-0061BFFA-8679-4F0B-85CA-2B247926FBDFQ29545147-843E6513-B599-450D-8499-0B1EF7A7A6EAQ30396783-465FED2B-4CE9-467F-A865-1A85475255E1Q35568459-B5286320-28EE-4C23-A7B5-7EAF19E6253CQ36657546-21421B73-22EA-4FFB-BDB4-943216235FF3Q37898548-4ECE1F9B-E77B-45AF-9B13-EDF77B976FA3Q38036617-8B0CC509-9DB4-4011-8D67-87165964F72AQ38093156-E455CA82-7030-4A41-B2C4-4D19A4F64381Q40510201-BAFC8336-FF3E-4E9A-9AF5-23209D94D773Q42252349-74804EBD-9F97-4B9A-97CE-8B0676995F91Q45353692-AF689EF0-C8A4-4180-993F-B705D405A022Q45934386-B4514FAC-9E5A-4EBF-9AEC-9F5159C28CE2Q46000702-0D7B8B80-A474-4274-A008-0FCA57A478FDQ46201869-019B289F-B8F7-45D2-809A-254833E80FC6Q46650873-A88A805C-313E-4D00-B062-938B04439DC1Q46821375-840F592F-82DE-4C29-A903-57F1859C819DQ47751606-B42E8571-7A3D-425C-93E0-63D20DCEDCC9Q50477550-FD509E5E-E8C4-4916-AF15-203D155FA0BAQ50596805-008C83BE-F535-427C-9000-CEF9F4AB3EDEQ50636414-F416667B-0BE6-4DB2-AC64-F429337F2006Q50687507-BBAC5684-5E7C-45BC-8755-F18E260D21E4Q50891585-24F7868D-954D-438C-B01D-531A573852B0Q51069369-10E22868-5235-4D11-B496-30E1B35A58B8Q51268644-6AAC6943-4279-4356-9A23-ECF40B95E889Q57080706-35E65CBB-ED24-41D5-809F-AA70C9B9F570Q57394925-F9DC8CBE-8FF6-4E53-8FD5-6AB908B5EB39Q57653971-2EE2A349-880A-4B65-95E0-98845F381413Q57654758-486B28A1-F5A9-44A8-80BB-490EE0CC6C43Q57654801-53726E1C-D055-431E-814B-49C7C8D3B899Q57654804-EB10228F-4E73-4ADE-A104-1C7D698490DAQ57654821-5B64933B-87C9-4F75-9F19-071E6C45A2FAQ57654827-33F49DCE-5BC6-4D58-B618-105AC66AC815Q57654828-36DEA461-4C09-4E77-9E8C-7A66E4A3B587Q57654832-20AD0FEB-F657-48EF-BCB3-ABD895C3C911Q57654850-D003869A-C839-445B-9069-7DCE57022D3AQ57654867-27BC22C8-055C-423A-8BC5-C1B5A1D6CB45Q57654870-0F990E7B-D780-4436-BEE3-5BAACDA1FF2EQ57654876-F03366B2-40D0-4648-93FC-3A6667EB651AQ57707558-6EA613AD-E159-4AFC-8EDC-F78B1B209ADA
P2860
Exciton binding energies in carbon nanotubes from two-photon photoluminescence
description
im Dezember 2005 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в грудні 2005
@uk
name
Exciton binding energies in carbon nanotubes from two-photon photoluminescence
@en
Exciton binding energies in carbon nanotubes from two-photon photoluminescence
@nl
type
label
Exciton binding energies in carbon nanotubes from two-photon photoluminescence
@en
Exciton binding energies in carbon nanotubes from two-photon photoluminescence
@nl
prefLabel
Exciton binding energies in carbon nanotubes from two-photon photoluminescence
@en
Exciton binding energies in carbon nanotubes from two-photon photoluminescence
@nl
P2093
P2860
P50
P1433
P1476
Exciton binding energies in carbon nanotubes from two-photon photoluminescence
@en
P2093
C. Thomsen
E. Molinari
M. S. Strano
R. Pomraenke
P2860
P356
10.1103/PHYSREVB.72.241402
P407
P577
2005-12-14T00:00:00Z
P818
cond-mat/0505150