Catalytic CVD synthesis of boron nitride and carbon nanomaterials – synergies between experiment and theory

McLean, Ben; Eveleens, Clothilde A.; Mitchell, Izaac; Webber, Grant B.; Page, Alister J.

doi:10.1039/c7cp03835f

Cited by 26 publications

(31 citation statements)

References 532 publications

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“…Despite the close structural relationship with carbon nanostructures, the factors governing the synthesis and production of BNNSs are different from their carbon analogues, 8 , 9 owing to the B–N chemistry that involves both ionic and covalent bonding, and the need for B–N element alternation in any thermodynamically stable BN structure. BNNTs, which are harder to synthesize than carbon nanotubes (CNTs), 10 have been grown by arc discharge, 11 laser ablation, 12 substitution reactions from CNTs, 13 ball-milling, 14 chemical vapor deposition (CVD), 11 boron oxide CVD (BOCVD)/floating zone method, 15 and others.…”

Section: Introductionmentioning

confidence: 99%

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Simulations of the synthesis of boron-nitride nanostructures in a hot, high pressure gas volume

et al. 2018

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Section: Introductionmentioning

confidence: 99%

“… 25 It is hypothesized in the literature that hydrogen in nitrogen plasma is necessary to prevent the recombination of nitrogen atoms to non-reactive dinitrogen molecules. 8 , 23 …”

Section: Introductionmentioning

confidence: 99%

Simulations of the synthesis of boron-nitride nanostructures in a hot, high pressure gas volume

et al. 2018

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“…Besides CNT hybrid systems with polymers, spinning macroscopic yarns out of different CNT starting materials like sheets and arrays is a promising way to incorporate these properties into practical materials. These carbon nanotube yarns (CNY) have a high tensile strength [6], are extremely flexible and very light weight, which makes these materials promising candidates for electrical wiring in different applications [7][8][9][10][11]. However the physical properties, especially the electrical conductivity, still lag behind individual CNT and copper [1].…”

Section: Introductionmentioning

confidence: 99%

Systematic Investigations of Annealing and Functionalization of Carbon Nanotube Yarns

et al. 2020

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Carbon nanotube yarns (CNY) are a novel carbonaceous material and have received a great deal of interest since the beginning of the 21st century. CNY are of particular interest due to their useful heat conducting, electrical conducting, and mechanical properties. The electrical conductivity of carbon nanotube yarns can also be influenced by functionalization and annealing. A systematical study of this post synthetic treatment will assist in understanding what factors influences the conductivity of these materials. In this investigation, it is shown that the electrical conductivity can be increased by a factor of 2 and 5.5 through functionalization with acids and high temperature annealing respectively. The scale of the enhancement is dependent on the reducing of intertube space in case of functionalization. For annealing, not only is the highly graphitic structure of the carbon nanotubes (CNT) important, but it is also shown to influence the residual amorphous carbon in the structure. The promising results of this study can help to utilize CNY as a replacement for common materials in the field of electrical wiring.

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“…Several methods have been employed in the synthesis of N-CNTs; namely arc-discharge [24], laser deposition [25] and chemical vapour deposition (CVD) [26]. Of these, the CVD technique has been the method commonly used for large-scale N-CNT synthesis [27].…”

Section: Introductionmentioning

confidence: 99%

“…Recently, Sakurai et al [37] reported that the introduction of the oxygencontaining molecule (e.g. H 2 O) during CVD synthesis enhanced the growth of CNTs and prolong catalyst lifetime at temperatures above 750 • C. This resulted in the removal of amorphous carbon through water vapour etching to give a graphitic nanostructured carbon network [26]. Fatuba et al [38] also reported that the addition of oxygen-containing aromatic compounds (i.e.…”

Section: Introductionmentioning

confidence: 99%

Effect of benzophenone on the physicochemical properties of N-CNTs synthesized from 1-ferrocenylmethyl (2-methylimidazole) catalyst

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Adesuji

Oseghale

et al. 2020

J. Nig. Soc. Phys. Sci.

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Vertically-aligned nitrogen-doped carbon nanotubes (v-N-CNTs) were synthesized \textit{via} the chemical vapour deposition (CVD) technique. 1-ferrocenylmethyl(2-methylimidazole) was employed as the source of the Fe catalyst and was dissolved in different ratios of acetonitrile/benzophenone feedstock which served as both the carbon, nitrogen, and oxygen sources. The morphological difference in N-CNTs was as a result of increased oxygen concentration in the reaction mix and not due to water vapour formation as observed in the oxygen-free experiment, indicating specifically, the impact of oxygen. Raman and X-ray photoelectron spectroscopy (XPS) revealed surface defects and grafting of oxygen functional groups on the sidewall of N-CNTs. The FTIR data showed little or no effect as oxygen concentration increases. XPS analysis detected the type of nitrogen species (\textit{i.e.} pyridinic, pyrrolic, graphitic, or molecular nitrogen forms) incorporated in the N-CNT samples. Pyrrolic nitrogen was dominant and increased (from 8.6 to 11.8 at.\%) as oxygen concentration increases in the reaction precursor. An increase in N content was observed with the introduction of a lower concentration of oxygen, followed by a gradual decrease at higher oxygen concentration. Our result suggested that effective control of the reactant mixtures can manipulate the morphology of N-CNTs.

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Catalytic CVD synthesis of boron nitride and carbon nanomaterials – synergies between experiment and theory

Cited by 26 publications

References 532 publications

Simulations of the synthesis of boron-nitride nanostructures in a hot, high pressure gas volume

Simulations of the synthesis of boron-nitride nanostructures in a hot, high pressure gas volume

Systematic Investigations of Annealing and Functionalization of Carbon Nanotube Yarns

Effect of benzophenone on the physicochemical properties of N-CNTs synthesized from 1-ferrocenylmethyl (2-methylimidazole) catalyst

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