SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1973059921> ?p ?o ?g. }

Showing items 1 to 100 of ±151 with 100 items per page.

W1973059921 endingPage "7856" @default.
W1973059921 startingPage "7848" @default.
W1973059921 abstract "The interaction of acetone with single wall carbon nanotubes (SWCNTs) at low temperatures was studied by a combination of temperature programmed desorption (TPD) and dispersion-augmented density-functional-based tight binding (DFTB-D) theoretical simulations. On the basis of the results of the TPD study and theoretical simulations, the desorption peaks of acetone can be assigned to the following adsorption sites: (i) sites with energy of ∼75 kJ mol−1 (Tdes ∼300 K)—endohedral sites of small diameter nanotubes (∼7.7 Å); (ii) sites with energy 40–68 kJ mol−1 (Tdes ∼240 K)—acetone adsorption on accessible interstitial, groove sites, and endohedral sites of larger nanotubes (∼14 Å); (iii) sites with energy 25–42 kJ mol−1 (Tdes ∼140 K)—acetone adsorption on external walls of SWCNTs and multilayer adsorption. Oxidatively purified SWCNTs have limited access to endohedral sites due to the presence of oxygen functionalities. Oxygen functionalities can be removed by annealing to elevated temperature (900 K) opening access to endohedral sites of nanotubes. Nonpurified, as-received SWCNTs are characterized by limited access for acetone to endohedral sites even after annealing to elevated temperatures (900 K). Annealing of both purified and as-produced SWCNTs to high temperatures (1400 K) leads to reduction of access for acetone molecules to endohedral sites of small nanotubes, probably due to defect self-healing and cap formation at the ends of SWCNTs. No chemical interaction between acetone and SWCNTs was detected for low temperature adsorption experiments. Theoretical simulations of acetone adsorption on finite pristine SWCNTs of different diameters suggest a clear relationship of the adsorption energy with tube sidewall curvature. Adsorption of acetone is due to dispersion forces, with its C−O bond either parallel to the surface or O pointing away from it. No significant charge transfer or polarization was found. Carbon black was used to model amorphous carbonaceous impurities present in as-produced SWCNTs. Desorption of acetone from carbon black revealed two peaks at ∼140 and ∼180–230 K, similar to two acetone desorption peaks from SWCNTs. The characteristic feature of acetone desorption from SWCNTs was peak at ∼300 K that was not observed for carbon black. Care should be taken when assigning TPD peaks for molecules desorbing from carbon nanotubes as amorphous carbon can interfere." @default.
W1973059921 created "2016-06-24" @default.
W1973059921 creator A5006561245 @default.
W1973059921 creator A5020600412 @default.
W1973059921 creator A5023941889 @default.
W1973059921 creator A5036371161 @default.
W1973059921 creator A5046671675 @default.
W1973059921 creator A5051180410 @default.
W1973059921 date "2008-07-10" @default.
W1973059921 modified "2023-09-27" @default.
W1973059921 title "Interaction of Acetone with Single Wall Carbon Nanotubes at Cryogenic Temperatures: A Combined Temperature Programmed Desorption and Theoretical Study" @default.
W1973059921 cites W1963493284 @default.
W1973059921 cites W1967411343 @default.
W1973059921 cites W1971484702 @default.
W1973059921 cites W1974725489 @default.
W1973059921 cites W1978849007 @default.
W1973059921 cites W1980516378 @default.
W1973059921 cites W1984247233 @default.
W1973059921 cites W1984716312 @default.
W1973059921 cites W1988741517 @default.
W1973059921 cites W1989304689 @default.
W1973059921 cites W1989448102 @default.
W1973059921 cites W1991914560 @default.
W1973059921 cites W2002013642 @default.
W1973059921 cites W2002174191 @default.
W1973059921 cites W2006669018 @default.
W1973059921 cites W2008302913 @default.
W1973059921 cites W2008966995 @default.
W1973059921 cites W2010817547 @default.
W1973059921 cites W2010825644 @default.
W1973059921 cites W2016420148 @default.
W1973059921 cites W2018205135 @default.
W1973059921 cites W2018632549 @default.
W1973059921 cites W2018858346 @default.
W1973059921 cites W2019309046 @default.
W1973059921 cites W2021682236 @default.
W1973059921 cites W2022565432 @default.
W1973059921 cites W2022696619 @default.
W1973059921 cites W2024923635 @default.
W1973059921 cites W2025702332 @default.
W1973059921 cites W2028494907 @default.
W1973059921 cites W2036669951 @default.
W1973059921 cites W2038625253 @default.
W1973059921 cites W2038891531 @default.
W1973059921 cites W2039766436 @default.
W1973059921 cites W2040717113 @default.
W1973059921 cites W2049171644 @default.
W1973059921 cites W2050067670 @default.
W1973059921 cites W2051541549 @default.
W1973059921 cites W2055107502 @default.
W1973059921 cites W2058210956 @default.
W1973059921 cites W2064798852 @default.
W1973059921 cites W2066683734 @default.
W1973059921 cites W2078146328 @default.
W1973059921 cites W2090909570 @default.
W1973059921 cites W2094386108 @default.
W1973059921 cites W2094630917 @default.
W1973059921 cites W2109673918 @default.
W1973059921 cites W2125367118 @default.
W1973059921 cites W2128357666 @default.
W1973059921 cites W2131489964 @default.
W1973059921 cites W2133441446 @default.
W1973059921 cites W2136039980 @default.
W1973059921 cites W2146161411 @default.
W1973059921 cites W2148941593 @default.
W1973059921 cites W2154696739 @default.
W1973059921 cites W2159284026 @default.
W1973059921 cites W2166894647 @default.
W1973059921 cites W2488960176 @default.
W1973059921 cites W2622167022 @default.
W1973059921 cites W2623206512 @default.
W1973059921 cites W4232314910 @default.
W1973059921 doi "https://doi.org/10.1021/la800030y" @default.
W1973059921 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/18613702" @default.
W1973059921 hasPublicationYear "2008" @default.
W1973059921 type Work @default.
W1973059921 sameAs 1973059921 @default.
W1973059921 citedByCount "30" @default.
W1973059921 countsByYear W19730599212012 @default.
W1973059921 countsByYear W19730599212013 @default.
W1973059921 countsByYear W19730599212014 @default.
W1973059921 countsByYear W19730599212015 @default.
W1973059921 countsByYear W19730599212016 @default.
W1973059921 countsByYear W19730599212017 @default.
W1973059921 countsByYear W19730599212018 @default.
W1973059921 countsByYear W19730599212020 @default.
W1973059921 countsByYear W19730599212021 @default.
W1973059921 countsByYear W19730599212022 @default.
W1973059921 crossrefType "journal-article" @default.
W1973059921 hasAuthorship W1973059921A5006561245 @default.
W1973059921 hasAuthorship W1973059921A5020600412 @default.
W1973059921 hasAuthorship W1973059921A5023941889 @default.
W1973059921 hasAuthorship W1973059921A5036371161 @default.
W1973059921 hasAuthorship W1973059921A5046671675 @default.
W1973059921 hasAuthorship W1973059921A5051180410 @default.
W1973059921 hasConcept C121332964 @default.
W1973059921 hasConcept C127413603 @default.
W1973059921 hasConcept C147789679 @default.