Electroactive carbon nanoforms: a comparative study via sequential arylation and click chemistry reactions

Abstract: Carbon nanoforms behave differently in sequential arylation-click chemistry reactions, which impact on their properties.

“…Thermogravimetric analysis (TGA) measurements were performed in order to evaluate the degree of functionalization (Figures S4 and S5). As expected, a higher degree of functionalization was obtained for SWCNT‐1 when compared to MWCNT‐1 . In contrast, a similar weight loss is observed in MWCNT‐2 compared to SWCNT‐2 under the same experimental conditions, what involves a better efficiency in the CuAAC of MWCNT.…”

“…In a similar manner, the two different contributions to the N 1s energy level signal for SWCNT‐2 and MWCNT‐2 corroborated the formation of the triazole rings as a consequence of the CuAAC reaction . The peak corresponding to the S 2p at 170 eV was an evidence of the presence of the exTTF motifs …”

“…Once compound 4 was synthesized, CNT endowed with protected alkyne functionalities ( SWCNT‐1 and MWCNT‐1 ), previously obtained by following a Tour arylation reaction, were suspended in N ‐methyl‐2‐pyrrolidone (NMP) and reacted with tetrabutylammonium fluoride (TBAF) to deprotect the alkyne groups, which were subsequently reacted with 4 in a new Cu I ‐catalyzed 1,3‐dipolar cycloaddition process (Scheme ).…”

“…These carbon nanotube‐C 60 nanohybrids were assembled in a tricomponent electroactive system with the aid of covalent and non‐covalent methodologies. The CNT‐exTTF tweezer nanoconjugates were synthesized by a well established methodology in the covalent chemistry of carbon nanoforms that combines arylation under Tour conditions and Cu I ‐catalyzed azide‐alkyne cycloaddition (CuAAC) reactions . The host‐guest complexes formed between the CNT‐exTTF tweezer and C 60 were investigated by UV‐Vis spectroscopy.…”

Carbon Nanotubes Conjugated with Triazole‐Based Tetrathiafulvalene‐Type Receptors for C₆₀ Recognition

“…Thermogravimetric analysis (TGA) measurements were performed in order to evaluate the degree of functionalization (Figures S4 and S5). As expected, a higher degree of functionalization was obtained for SWCNT‐1 when compared to MWCNT‐1 . In contrast, a similar weight loss is observed in MWCNT‐2 compared to SWCNT‐2 under the same experimental conditions, what involves a better efficiency in the CuAAC of MWCNT.…”

“…In a similar manner, the two different contributions to the N 1s energy level signal for SWCNT‐2 and MWCNT‐2 corroborated the formation of the triazole rings as a consequence of the CuAAC reaction . The peak corresponding to the S 2p at 170 eV was an evidence of the presence of the exTTF motifs …”

“…Once compound 4 was synthesized, CNT endowed with protected alkyne functionalities ( SWCNT‐1 and MWCNT‐1 ), previously obtained by following a Tour arylation reaction, were suspended in N ‐methyl‐2‐pyrrolidone (NMP) and reacted with tetrabutylammonium fluoride (TBAF) to deprotect the alkyne groups, which were subsequently reacted with 4 in a new Cu I ‐catalyzed 1,3‐dipolar cycloaddition process (Scheme ).…”

“…These carbon nanotube‐C 60 nanohybrids were assembled in a tricomponent electroactive system with the aid of covalent and non‐covalent methodologies. The CNT‐exTTF tweezer nanoconjugates were synthesized by a well established methodology in the covalent chemistry of carbon nanoforms that combines arylation under Tour conditions and Cu I ‐catalyzed azide‐alkyne cycloaddition (CuAAC) reactions . The host‐guest complexes formed between the CNT‐exTTF tweezer and C 60 were investigated by UV‐Vis spectroscopy.…”

Carbon Nanotubes Conjugated with Triazole‐Based Tetrathiafulvalene‐Type Receptors for C₆₀ Recognition

“…the ''patching'' successfully modified the whole system [61]. With respect to ''patching'', they also synthesized an electron-donor-acceptor nanohybrid via non-covalent interactions [62].…”

Domino games: Controlling structure and patterns of carbon nanomaterials in 2D & 3D

Exploring Tetrathiafulvalene–Carbon Nanodot Conjugates in Charge Transfer Reactions