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• W3196910153 abstract "Helical carbon nanotubes currently cost ~15,000–19,000 USD/kg commercially and are ~10–15 times the price of straight carbon nanotubes of similar dimensions. They have not previously been made from the greenhouse gas CO 2 nor had new variants of the helical morphology been demonstrated. In this study, a novel, inexpensive electrosynthesis of these helical nanocarbon materials from CO 2 is presented. This material may be produced by molten carbon growth conditions that (1) maximize torsional stresses, such as those that may occur during rapid, nucleated carbon reduction, (2) enhance defects that cause formation of heptagonal, rather than the conventional hexagonal building blocks of graphene cylindrical walls, and (3) uniformly control those enhanced defects to repeatedly induce a uniform spiral conformation. These conditions are achieved with at least two of the following experimental conditions: (i) high electrolysis current density, (ii) sp 3 defect-inducing agents, such as added oxide, and (iii) controlled concentration of iron added to the electrolyte or cathode. Here, it is shown with SEM, TEM, EDX, XRF, and Raman spectroscopy that a molten controlled electrolyte carbonate synthesis to induce defect formation, and a high rate of electrolysis (0.6 A/cm 2 ) leads to a high yield of helical nanotubes, helical nanofibers, or helical nanoplatelet carbon morphologies. • CO 2 is transformed to valuable helical carbon nanomaterials (HCNMs) incentivizing use of this greenhouse gas. • The first HCNM electrolytic CO 2 splitting growth mechanism is introduced, and the first braided and spiral morphologies. • CO 2 splitting and HCNM growth is facilitated by high current density and electrolytic iron oxide addition." @default.
• W3196910153 created "2021-09-13" @default.
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• W3196910153 date "2021-12-01" @default.
• W3196910153 modified "2023-09-27" @default.
• W3196910153 title "The green synthesis of exceptional braided, helical carbon nanotubes and nanospiral platelets made directly from CO2" @default.
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• W3196910153 doi "https://doi.org/10.1016/j.mtchem.2021.100529" @default.
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