2019
DOI: 10.1016/j.carbon.2019.04.041
|View full text |Cite
|
Sign up to set email alerts
|

Fermi level shift in carbon nanotubes by dye confinement

Abstract: Dye confinement into carbon nanotube significantly affects the electronic charge density distribution of the final hybrid system. Using the electron-phonon coupling sensitivity of the Raman G-band, we quantify experimentally how charge transfer from thiophene oligomers to single walled carbon nanotube is modulated by the diameter of the nano-container and its metallic or semiconducting character. This charge transfer is shown to restore the electron-phonon coupling into defected metallic nanotubes. For sub-nan… Show more

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
2
2
1

Citation Types

1
12
0

Year Published

2020
2020
2022
2022

Publication Types

Select...
8

Relationship

0
8

Authors

Journals

citations
Cited by 20 publications
(13 citation statements)
references
References 52 publications
1
12
0
Order By: Relevance
“…In a related direction, endohedral filling of the SWCNTs with dye molecules may further extend the light harvesting capability of these solar cells, and photoinduced energy transfer from the organic dye to the s‐SWCNTs has already been observed with PL and photocurrent spectroscopy. [ 89 ] Molecules including quaterthiophene (4T), [ 90 ] squarylium dye (SQ), [ 89a,91 ] p,p′‐dimethylaminonitrostilbene (DANS), [ 92 ] and ferrocenylthiocarbonyl based dyes [ 93 ] have all been placed inside a SWCNT. However, these all require a minimum diameter of SWCNT (≈1.1 nm), [ 91,92 ] known as the sieving diameter, which places them outside the diameter range accessible to C 60 as an acceptor.…”
Section: Carbon Nanotubes In Organic Solar Cellsmentioning
confidence: 99%
“…In a related direction, endohedral filling of the SWCNTs with dye molecules may further extend the light harvesting capability of these solar cells, and photoinduced energy transfer from the organic dye to the s‐SWCNTs has already been observed with PL and photocurrent spectroscopy. [ 89 ] Molecules including quaterthiophene (4T), [ 90 ] squarylium dye (SQ), [ 89a,91 ] p,p′‐dimethylaminonitrostilbene (DANS), [ 92 ] and ferrocenylthiocarbonyl based dyes [ 93 ] have all been placed inside a SWCNT. However, these all require a minimum diameter of SWCNT (≈1.1 nm), [ 91,92 ] known as the sieving diameter, which places them outside the diameter range accessible to C 60 as an acceptor.…”
Section: Carbon Nanotubes In Organic Solar Cellsmentioning
confidence: 99%
“…26 The stacking of dye molecules inside SWCNTs was found to be driven by the combined effect of the mutual interactions of the dyes with each other and the interaction of the dyes with the SWCNT walls. Moreover, the dye stacking configuration not only depends on the SWCNT diameter, 25,27,28 but can also depend on the electronic properties of the surrounding SWCNTs 29 and the exact synthesis conditions used, 30 providing an enormous variety of possible dye@SWCNT combinations. Importantly, for each of these hybrid dye@SWCNT structures, different properties of the encapsulated dye molecules, the SWCNTs, and the combined nanohybrids can be observed.…”
Section: Introductionmentioning
confidence: 99%
“…The observed shift of breathing modes of the LuCl 3 @pSWCNTs, LuBr 3 @pSWCNTs and LuI 3 @pSWCNTs towards higher and lower frequencies as well as the significant changes in the intensity as compared with the pSWCNTs may be associated with a doping effect. [30][31][32][33][34][35][36] The RBM band positions in the spectra of LuI 3 @pSWCNTs are more significantly shifted than those of the LuCl 3 @pSWCNTs and LuBr 3 @pSWCNTs. In addition, the bands that are in resonance via E 11 M transitions present higher shifts in the frequencies, comparing LuX 3 @pSWCNTs (X = Cl, Br, I) with pSWCNTs, because the metallic tubes are more sensitive to doping.…”
Section: Filling and Washing Of Arc-discharge Swcntsmentioning
confidence: 99%
“…The G-band frequency shifts observed between pSWCNTs and LuX 3 @pSWCNTs (X = Cl, Br, I) can be attributed to doping effects, as we already mentioned in the analyses of the RBM. [30][31][32][33][34][35][36] Comparing the spectra of the pristine and filled samples, a weak shift of the G-band to both higher (blueshift) and lower (redshift) frequencies was observed. The contribution of Gmetallic is the most shifted one because it is more sensitive to doping.…”
Section: Filling and Washing Of Arc-discharge Swcntsmentioning
confidence: 99%