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Preparation method and application of an oxidized nitrogen-doped carbon nanotube array cluster/flexible carbon fiber material integrated electrode

A carbon fiber material, nanotube array technology, applied in fuel cell type half cells and secondary battery type half cells, battery electrodes, nanotechnology, etc. Oxygen separation and dissociation energy barriers, etc., to achieve the effect of a good linear array structure

Active Publication Date: 2022-02-22
北京清创人和生态工程技术有限公司
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

The study found that nitrogen atoms were doped onto carbon nanotube materials by chemical vapor deposition technology and formed nitrogen-containing functional groups. These nitrogen-containing functional groups changed the microstructure of carbon nanotube materials and enhanced the ability of carbon atoms to adsorb electrons. It improves its oxophilicity, reduces the dissociation energy barrier of oxygen separation, and promotes the decomposition of oxygen on the surface of carbon nanotubes, thereby improving the oxygen reduction performance of the battery, but the effect on the electrooxidation of oxygen negative ions is not obvious, which is expressed as the charging voltage Too high, the battery cycle performance is poor [Liu Sa. A nitrogen-doped carbon nanotube oxygen reduction electrocatalyst and its preparation method [P].No. 2019103189018]

Method used

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  • Preparation method and application of an oxidized nitrogen-doped carbon nanotube array cluster/flexible carbon fiber material integrated electrode
  • Preparation method and application of an oxidized nitrogen-doped carbon nanotube array cluster/flexible carbon fiber material integrated electrode
  • Preparation method and application of an oxidized nitrogen-doped carbon nanotube array cluster/flexible carbon fiber material integrated electrode

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Experimental program
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Effect test

Embodiment 1

[0038] (1) Preparation of conductive carbon black layer / carbon paper substrate

[0039] The carbon paper was cut into a size of 3 × 3 cm, dipped in isopropanol solvent, 80 Hz ultrasonic for 20 min to remove impurities on the surface of the carbon paper, and then taken out and dried for later use. Put 6.06 g of catalyst precursor ferric nitrate in the beaker, add 0.08 g of oxidized conductive carbon black and 15 g of 30% (mass fraction) acidic silica sol, and mechanically stir for 18 h at room temperature to make a stable suspension; Use a disposable dropper to drop a small amount of suspension on the surface of the surface-treated carbon paper, smear evenly, take it out after drying at a constant temperature, and then fill it according to the above-mentioned smearing method, and cycle 6 times; put the surface-filled carbon paper in the middle of the quartz tube , and then place the quartz tube in the constant temperature zone of the reaction tube furnace, in the air atmosphere...

Embodiment 2

[0050] (1) Preparation of conductive graphene layer / carbon cloth substrate

[0051]The carbon cloth was cut into a size of 4 × 4 cm and immersed in isopropanol solvent, and the impurities on the surface of the carbon paper were removed by ultrasonication at 60 Hz for 30 min, and then taken out and dried for later use. Put 7.04 g of catalyst precursor nickel nitrate in a beaker, add 0.12 g of oxidized graphene and 10 g of 40% (mass fraction) alkaline silica sol, and stir mechanically for 20 h at room temperature to make a stable suspension ; Use a disposable dropper to drop a small amount of suspension on the surface of the surface-treated carbon cloth, smear evenly, take it out after constant temperature drying, and then fill it according to the above-mentioned smearing method, and cycle 5 times; put the surface-filled carbon cloth in the middle of the quartz tube Cloth, and then place the quartz tube in the constant temperature area of ​​the reaction tube furnace, in the air ...

Embodiment 3

[0057] (1) Preparation of conductive Ketjen black layer / carbon felt substrate

[0058] The carbon felt was cut into a size of 3 × 5 cm and immersed in isopropanol solvent, 80 Hz ultrasonic for 20 min to remove impurities on the surface of the carbon felt, and then taken out and dried for later use. Put 8.03 g of catalyst precursor cobalt nitrate into the beaker, add 0.1 g of oxidized Ketjen Black and 15 g of 50% (mass fraction) alkaline silica sol, and mechanically stir for 18 h at room temperature to form a stable suspension Drop a small amount of suspension on the surface of the surface-treated carbon felt with a disposable dropper, smear evenly, take it out after drying at a constant temperature, and then fill it according to the above-mentioned smearing method, and cycle 9 times; put the surface-filled surface in the middle of the quartz tube carbon felt, and then place the quartz tube in the constant temperature zone of the reaction tube furnace, under the air atmosphere,...

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Abstract

The invention discloses a preparation method and application of an oxidized nitrogen-doped carbon nanotube array cluster / flexible carbon fiber material integrated electrode. The invention uses the surface-filled flexible carbon fiber material as the base, adopts chemical vapor deposition technology, and controllably prepares nitrogen-doped carbon nanotube array clusters on the surface of the flexible carbon fiber material, and then through the surface oxidation functional treatment, the nitrogen-doped carbon A large number of oxygen-containing functional groups such as hydroxyl group, carbonyl group and carboxyl group are uniformly distributed on the surface of the nanotube array cluster, and serve as an integrated composite electrode with a three-dimensional parallel pore structure with bidirectional catalytic function. The integrated electrode material has high electrical conductivity, excellent mass and charge transfer capabilities, and can promote the reactant O 2 Reduction and product Li 2 o 2 The reaction rate of reversible decomposition improves reaction kinetics. The integrated electrode material has broad application prospects in electrode materials such as metal-air batteries, proton exchange membrane hydrogen fuel cells and direct methanol fuel cells.

Description

technical field [0001] The invention relates to a preparation method and application of an oxidized nitrogen-doped carbon nanotube array cluster / flexible carbon fiber material integrated electrode, and belongs to the technical field of electrode material preparation. Background technique [0002] Despite the maturity and commercialization of lithium-ion batteries, the energy density of the current state-of-the-art lithium-ion batteries is only 260 Wh kg -1 , The energy density of embedded lithium-ion batteries is close to the theoretical limit, and it is difficult to meet the rapid development of electric vehicles and the needs of energy storage systems in the future. In recent years, the research and development of lithium-air batteries has attracted much attention, mainly due to its high theoretical energy density (11140 Wh kg -1 , is 20 to 40 times that of lithium-ion batteries), a series of advantages such as light weight of the battery, and no pollution to the environm...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01M4/88H01M4/96H01M12/08B82Y30/00B82Y40/00
CPCH01M4/8867H01M4/96H01M12/08B82Y40/00B82Y30/00H01M2004/8689
Inventor 李瑜刘世斌郭倩段东红王俊文王昆磊徐守冬郝晓刚
Owner 北京清创人和生态工程技术有限公司
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