Carbon-based nanomaterial composition and methods of forming the same from a gas mixture that includes acetylene gas
Abstract
The present disclosure relates to a carbon-based nanomaterial composition that may be formed from a gas mixture. The gas mixture may include acetylene gas at a molar ratio AGmol/GMmol of at least about 0.55 and not greater than about 0.99, oxygen gas at a molar ratio OGmol/GMmol of at least about 0.01 and not greater than about 0.75, and hydrogen gas at a molar ratio HGmol/GMmol of at least about 0.05 and not greater than about 0.90. The carbon-based nanomaterial composition may have a carbon hybridization ratio Psp3/Psp2 of at least about 0.0 and not greater than about 5.0, where Psp3 is the percent of carbon within the carbon-based nanomaterial composition having a sp3 hybridization and Psp2 is the percent of carbon within the carbon-based nanomaterial composition having a sp2 hybridization.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . A carbon-based nanomaterial composition formed from a gas mixture, wherein the gas mixture comprises:
acetylene gas at a molar ratio AG mo1 /GM mo1 of at least about 0.55 and not greater than about 0.99, where the AG mo1 is equal to the moles of acetylene gas in the gas mixture and GM mol is equal to the total moles of gas in the gas mixture, oxygen gas at a molar ratio OG mo1 /GM mo1 of at least about 0.01 and not greater than about 0.75, where the OG mo1 is equal to the moles of oxygen gas in the gas mixture and GM mol is equal to the total moles of gas in the gas mixture, and hydrogen gas at a molar ratio HG mo1 /GM mol of at least about 0.05 and not greater than about 0.90, where the HG mo1 is equal to the moles of hydrogen gas in the gas mixture and GM mol is equal to the total moles of gas in the gas mixture,
wherein the carbon-based nanomaterial has a carbon hybridization ratio P sp3 /P sp2 of at least about 0.0 and not greater than about 5.0, where P sp3 is the percent of carbon within the carbon-based nanomaterial composition having a sp3 hybridization and P sp2 is the percent of carbon within the carbon-based nanomaterial composition having a sp2 hybridization.
2 . The carbon-based nanomaterial composition of claim 1 , wherein the carbon-based nanomaterial composition comprises a carbon content of at least about 75% based on elemental analysis of the carbon-based nanomaterial composition.
3 . The carbon-based nanomaterial composition of claim 1 , wherein the carbon-based nanomaterial composition comprises a carbon content of not greater than about 100% based on elemental analysis of the carbon-based nanomaterial composition.
4 . The carbon-based nanomaterial composition of claim 1 , wherein the carbon-based nanomaterial composition comprises an oxygen content of not greater than about 25.0% based on elemental analysis of the carbon-based nanomaterial composition.
5 . The carbon-based nanomaterial composition of claim 1 , wherein the carbon-based nanomaterial has a carbon hybridization ratio P sp3 /P sp2 of not greater than about 4.75, where P sp3 is the percent of carbon within the carbon-based nanomaterial composition having a sp3 hybridization and P sp2 is the percent of carbon within the carbon-based nanomaterial composition having a sp2 hybridization.
6 . The carbon-based nanomaterial composition of claim 1 , wherein the carbon-based nanomaterial composition comprises a D/G ratio of not greater than about 0.1.
7 . The carbon-based nanomaterial composition of claim 1 , wherein the carbon-based nanomaterial composition comprises a D/G ratio of at least about 2.0.
8 . The carbon-based nanomaterial composition of claim 1 , wherein the carbon-based nanomaterial composition comprises an aspect ratio of not greater than about 60.
9 . The carbon-based nanomaterial composition of claim 1 , wherein the carbon-based nanomaterial composition comprises an aspect ratio of at least about 1.
10 . The carbon-based nanomaterial composition of claim 1 , wherein the gas mixture comprises acetylene gas at a concentration of at least about 2.2 mol.
11 . The carbon-based nanomaterial composition of claim 1 , wherein the gas mixture comprises acetylene gas at a concentration of not greater than about 18 mol.
12 . The carbon-based nanomaterial composition of claim 1 , wherein the carbon-based nanomaterial composition is formed in a system for carbon-based nanomaterial synthesis, wherein the system comprises:
an enclosed chamber comprising a hollow interior; a carbon-based gas source fluidically coupled to the chamber and configured to supply a carbon-based gas to the hollow interior; a hydrogen source that is independent of the carbon-based gas source and that is fluidically coupled to the chamber and configured to supply hydrogen to the hollow interior; an oxygen source that is independent of the carbon-based gas source and that is fluidically coupled to the chamber and configured to supply oxygen to the hollow interior; an igniter configured to ignite the carbon-based gas, hydrogen, and oxygen in the hollow interior; a first flow meter coupled to the carbon-based gas source, a second flow meter coupled to the hydrogen source, a third flow meter coupled to the oxygen source; and a controller in communication with and configured to receive flow data from the first, second, and third flow meters; wherein the controller is configured to adjust flow from one or more of the carbon-based gas source, the hydrogen source, and/or the oxygen source in response to the flow data.
13 . A method of forming a carbon-based nanomaterial composition, wherein the method comprises:
supplying a gas mixture comprising:
acetylene gas at a molar ratio AG mo1 /GM mo1 of at least about 0.55 and not greater than about 0.99, where the AG mo1 is equal to the moles of acetylene gas in the gas mixture and GM mol is equal to the total moles of gas in the gas mixture,
oxygen gas at a molar ratio OG mo1 /GM mo1 of at least about 0.01 and not greater than about 0.75, where the OG mo1 is equal to the moles of oxygen gas in the gas mixture and GM mol is equal to the total moles of gas in the gas mixture, and
hydrogen gas at a molar ratio HG mo1 /GM mo1 of at least about 0.05 and not greater than about 0.90, where the HG mol is equal to the moles of hydrogen gas in the gas mixture and GM mol is equal to the total moles of gas in the gas mixture,
igniting the gas mixture to form the carbon-based nanomaterial composition,
wherein the carbon-based nanomaterial has a carbon hybridization ratio P sp3 /P sp2 of at least about 4.0 and not greater than about 5.0, where P sp3 is the percent of carbon within the carbon-based nanomaterial composition having a sp3 hybridization and P sp2 is the percent of carbon within the carbon-based nanomaterial composition having a sp2 hybridization.
14 . A carbon-based nanomaterial composition comprising:
a carbon content of at least about 75% and not greater than about 100% based on elemental analysis of the carbon-based nanomaterial composition, and an oxygen content of at least about 0% and not greater than about 25% based on elemental analysis of the carbon-based nanomaterial composition,
wherein the carbon-based nanomaterial composition comprises a D/G ratio of at least about 0.1 and not greater than about 2.0; and
wherein the carbon-based nanomaterial has a carbon hybridization ratio P sp3 /P sp2 of at least about 0.0 and not greater than about 5.0, where P sp3 is the percent of carbon within the carbon-based nanomaterial composition having a sp3 hybridization and P sp2 is the percent of carbon within the carbon-based nanomaterial composition having a sp2 hybridization.
15 . The carbon-based nanomaterial composition of claim 14 , wherein the carbon-based nanomaterial composition is formed from a gas mixture.
16 . The carbon-based nanomaterial composition of claim 14 , wherein the carbon-based nanomaterial composition comprises a carbon content of at least about 75% based on elemental analysis of the carbon-based nanomaterial composition.
17 . The carbon-based nanomaterial composition of claim 14 , wherein the carbon-based nanomaterial composition comprises a carbon content of not greater than about 100% based on elemental analysis of the carbon-based nanomaterial composition.
18 . The carbon-based nanomaterial composition of claim 14 , wherein the carbon-based nanomaterial composition comprises an oxygen content of not greater than about 25.0% based on elemental analysis of the carbon-based nanomaterial composition.
19 . The carbon-based nanomaterial composition of claim 14 , wherein the carbon-based nanomaterial has a carbon hybridization ratio P sp3 /P sp2 of not greater than about 5.0, where P sp3 is the percent of carbon within the carbon-based nanomaterial composition having a sp3 hybridization and P sp2 is the percent of carbon within the carbon-based nanomaterial composition having a sp2 hybridization.
20 . The carbon-based nanomaterial composition of claim 14 , wherein the carbon-based nanomaterial composition comprises a D/G ratio of not greater than about 0.1.Cited by (0)
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