Synthesis and characterization of sp-sp<sup>2</sup> hybrid carbon materials

LI Xu; HE Yan-bing; LI Bao-hua; KANG Fei-yu

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LI Xu, HE Yan-bing, LI Bao-hua, KANG Fei-yu. Synthesis and characterization of sp-sp2 hybrid carbon materials. New Carbon Mater., 2020, 35(3): 307-314.

Citation:

LI Xu, HE Yan-bing, LI Bao-hua, KANG Fei-yu. Synthesis and characterization of sp-sp² hybrid carbon materials. New Carbon Mater., 2020, 35(3): 307-314.

LI Xu, HE Yan-bing, LI Bao-hua, KANG Fei-yu. Synthesis and characterization of sp-sp2 hybrid carbon materials. New Carbon Mater., 2020, 35(3): 307-314.

Citation:

LI Xu, HE Yan-bing, LI Bao-hua, KANG Fei-yu. Synthesis and characterization of sp-sp² hybrid carbon materials. New Carbon Mater., 2020, 35(3): 307-314.

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Synthesis and characterization of sp-sp² hybrid carbon materials

LI Xu^1,2,
HE Yan-bing¹,
LI Bao-hua¹,
KANG Fei-yu^{1,2
,}

1.
Tsinghua Shenzhen International Graduate School, Tsinghua University, Shenzhen 518055, China;
2.
Department of Materials Science and Engineering, Tsinghua University, Beijing 100084, China

Funds: National Natural Science Foundation of China (51672156).

Received Date: 2020-02-18
Rev Recd Date: 2020-05-12
Publish Date: 2020-06-28

Abstract

Abstract

A 1,3,5-trichloro-2,4,6-triethinyl-benzene monomer was synthesized from 1,3,5-trichlorobenzene by iodination with periodic acid, followed by the substitution of iodine with trimethylsilylacetylene and finally the removal of the trimethylsilyl groups with tetrabutylammonium fluoride by the Sonogashira reaction. It was polymerized in pyridine under the catalysis of Cu⁺ to produce a gel-like polymer that was freeze-dried to give a 3D sp-sp² hybrid carbon material. A 2D sp-sp² hybrid carbon material was also made on a copper substrate which acted as both catalyst and template by first pretreating the substrate with a HCl solution,then soaking the substrate in pyridine, slowly adding a low concentration solution of 1,3,5-trichloro-2,4,6-triethinyl-benzene in pyridine,keeping it at 60 ℃ for 72 h for polymerization, rinsing the substrate consecutively with pyridine,dimethylformamide,dimethyl sulfoxide and acetone, and finally removing the substrate by FeCl₃ etching. The substituted intermediate from the first reaction, 1,3,5-trichloro-2,4,6-tri(trimethylsilylacetyl)-benzene, was stored in ether at ambient temperature for one month to yield a black solid of oligomers. Results indicated that the 3D sp-sp² hybrid carbon material consisted of carbon, chlorine and oxygen, whose composition, after oxygen was subtracted, was the same as that of the monomer. It had Raman peaks consistent with graphdiyne, and a BET surface area of 334 m²/g with a Ⅰ-Ⅱ type isotherm with a H3 hysteresis loop. The presence of a 2D graphyne-like structure was identified by HRTEM and selected area diffraction for the sp-sp² hybrid carbon on the copper substrate,indicating that it is possible for chemical synthesis of 2D graphyne by a template method. The black solid of oligomers consisted of mainly carbon,silicon and chlorine, which had a BET surface area of 382 m²/g with an ink-bottle pore texture. After it was annealed at 650 ℃ for 6 h, the chlorine was mostly eliminated, the silicon content decreased significantly and the intensities of the D and G peaks increased while the peak at 2 200 cm^-1 ascribed to graphyne disappeared producing a micro/mesoporous carbon with a surface area of 896 m²/g, an ink-bottle pore texture and pore sizes less than 30 nm, indicating that the graphyne-like structure was destroyed.
- Coupling polymerization,
- sp-sp² hybrid carbon materials,
- Ink-bottle pore,
- Graphyne

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References

Heimann R B, Evsyukov S E, Koga Y. Carbon allotropes:A suggested classification scheme based on valence orbital hybridization[J]. Carbon, 1997, 35(10-11):1654-1658.

Csari C S, Tommasini M, Tykwinski R R, et al. Carbon-atom wires:1-D systems with tunable properties[J]. Nanoscale, 2016, 8:4414-4435.

Zhang Y-Q, Kep?ija N, Kleinschrodt M, et al. Homo-coupling of terminal alkynes on a noble metal surface[J]. Nature Communications, 2012, 3:1286.

Cirera B, Zhang Y-Q, Klyatskaya S, et al. 2D self-assembly and catalytic homo-coupling of the terminal alkyne 1,4-bis(3,5-diethynyl-phenyl)butadiyne-1,3 on Ag(111)[J]. ChemCatChem, 2013, 5:3281-3288.

Cirera B, Zhang Y-Q, Björk J, et al. Synthesis of extended graphdiyne wires by vicinal surface templating[J]. Nano Letters, 2014, 14:1891-1897.

Björk J, Zhang Y-Q, Klappenberger F, et al. Unraveling the mechanism of the covalent coupling between terminal alkynes on a noble metal[J]. The Journal of Physical Chemistry C, 2014, 118:3181-3187.

Liu J, Chen Q, Xiao L, et al. Lattice-directed formation of covalent and organomtallic molecular wires by terminal alkynes on Ag surfaces[J]. ACS Nano, 2015, 9:6305-6314.

Klappenberger F, Zhang Y-Q, Björk J, et al. On-surface synthesis of carbon-based scaffolds and nanomaterials using terminal alkynes[J]. Accounts of Chemical Research, 2015, 48:2140-2150.

Wolff J J, Gredel F, Oeser T, et al. Crystal engineering with symmetrical threefold acceptor-substituted triaminobenzenes[J]. Chemistry-A European Journal, 1999, 5:29-38.

Tobe Y, Nakagawa N, Kishi J-y, et al. Polyyne cyclization to form carbon cages:[16.16.16](1,3,5)cyclophanetetracosayne derivatives C₆₀H₆ and C₆₀Cl₆ as precursors to C₆₀ fullerene[J].Tetrahedron, 2001, 57:3629-3636.

Du R, Zhang N, Xu H, et al. CMP aerogels:ultrahigh-surface-area carbon-based monolithic materials with superb sorption performance[J]. Advanced Materials, 2014, 26:8053-8058.

Wang J, Zhang S, Zhou J, et al. Identifying sp-sp² carbon materials by Raman and infrared spectroscopies[J]. Physical Chemistry Chemical Physics, 2014, 16, 11303-11309.

Zhang S, Wang J, Li Z, et al. Raman spectra and corresponding strain effects in graphyne and graphdiyne[J]. The Journal of Physical Chemistry C, 2016, 120:10605-10613.

Zhou J, Gao X, Liu R, et al. Synthesis of graphdiyne nanowalls using acetylenic coupling reaction[J]. Journal of the American Chemical Society, 2015, 137:7596-7599.

Huang X, Sheng P, Tu Z, et al. A two-dimensional π-d conjugated coordination polymer with extremely high electrical conductivity and ambipolar transport behaviour[J]. Nature Communications, 2015, 6:7408.

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