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Carbon fluoride and application thereof

A carbon fluoride, the carbon fluoride technology, applied in the field of materials, can solve the problem of low conductivity, which has not been effectively solved, and achieves the effect of a high working voltage platform, safe and controllable reaction, and high specific capacity

Active Publication Date: 2014-11-26
NORTHWEST INST OF NUCLEAR TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The electrochemical performance of lithium-fluorinated graphite battery has been beneficially improved, but the problems of high polarizability and low conductivity of the battery have not been effectively solved

Method used

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  • Carbon fluoride and application thereof
  • Carbon fluoride and application thereof
  • Carbon fluoride and application thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] Bamboo charcoal is crushed and washed with water, then the washed bamboo charcoal is dried, passed through a 200 mesh sieve, and the undersize is taken for subsequent use; 5.2g of the undersize is packed into an airtight container (the material of the airtight container is pure nickel or Monel alloy), and the Introduce NF in a closed container 3 gas and keep NF 3The pressure is 200KPa, heat the airtight container and keep the reaction temperature at 600°C, react for 1h; take out the product after natural cooling, vacuum treatment at 300°C for 4h to remove by-products in the fluorinated carbon, and obtain 11.4g of the fluorinated carbon product. The rate is 86%.

[0030] The carbon fluoride prepared in this example is analyzed by X-ray energy dispersive spectrometer (EDS), and the atomic ratio of fluorine to carbon is 1:1; in the infrared spectrogram ( figure 1 ), corresponding to the 1219cm of the C-F covalent bond -1 There is a strong absorption peak at ; by X-ray d...

Embodiment 2

[0032] Bamboo charcoal is crushed and washed with water, then the washed bamboo charcoal is dried, passed through a 200-mesh sieve, and the undersize is taken for subsequent use; 4.5g of the undersize is packed into an airtight container (the material of the airtight container is pure nickel or Monel alloy), and the Introduce NF in a closed container 3 gas and keep NF 3 The pressure is 500KPa, heat the airtight container and keep the reaction temperature at 450°C, react for 17h; take out the product after natural cooling, vacuum treatment at 200°C for 6h to remove the by-products in the fluorinated carbon, and obtain 10.3g of the fluorinated carbon product. The rate is 95%.

[0033] The carbon fluoride prepared in this example is analyzed by X-ray energy dispersive spectrometer (EDS), and the atomic ratio of fluorine to carbon is 0.90:1; analyzed by infrared spectrum, it corresponds to the 1219cm of C-F covalent bond -1 There is a strong absorption peak; after X-ray diffract...

Embodiment 3

[0035] Bamboo charcoal is crushed and washed with water, then the washed bamboo charcoal is dried, passed through a 200 mesh sieve, and the undersize is taken for subsequent use; 3.0g of the undersize is packed into an airtight container (the material of the heated part of the airtight container is pure nickel or Monel alloy , the rest of the parts are made of stainless steel), and the NF is passed into the airtight container 3 gas and keep NF 3 The pressure is 20KPa, heat the airtight container and keep the reaction temperature at 350°C, react for 20h; take out the product after natural cooling, vacuum treatment at 200°C for 6h to remove the by-products in the fluorinated carbon, and obtain 4.8g of the fluorinated carbon product. The rate is 88%.

[0036] The carbon fluoride prepared in this example is analyzed by X-ray energy scatter spectrometer (EDS), and the atomic ratio of fluorine to carbon is 0.2:1; analyzed by infrared spectrum, it corresponds to the 1219cm of C-F co...

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Abstract

The invention discloses carbon fluoride prepared by carrying out heating reaction of bamboo charcoal and a fluorination reagent in a closed container. A preparation method of carbon fluoride is characterized by heating bamboo charcoal and the fluorination reagent in the closed container for 1-20 h to obtain carbon fluoride, wherein the fluorination reagent is NF3, and the reaction temperature of the heating reaction is 300-600 DEG C. In addition, the invention further discloses an application of the carbon fluoride in being used as a lithium primary cell cathode material. The preparation method of the carbon fluoride has the advantages of simple process, high specific capacity and good safety. A lithium primary cell prepared by using the carbon fluoride provided by the invention has high working voltage platform, the discharge voltage of lithium-carbon fluoride is raised to 3.0V which is higher than the discharge voltage being 2.5V of lithium-graphite fluoride, thus the energy storage capacity of the lithium primary cell can be raised by about 20%.

Description

technical field [0001] The invention belongs to the technical field of materials, and in particular relates to a carbon fluoride and its application. Background technique [0002] Power storage devices with high specific energy and long storage life are important components for civil and military communications and intelligent high-tech weapons. The specific energy of the current battery can reach 200Wh / kg-400Wh / kg, but the storage life is only 2-3 years. When the battery fails, it must be replaced, which is a huge burden on the management and maintenance of the equipment. And some systems (such as Li-SOCl 2 system, the specific energy is 350Wh / kg~400Wh / kg), there is a risk of explosion, and there is a potential safety hazard of its own. It cannot meet the needs of the development of intelligent high-tech equipment. The lithium-carbon fluoride battery system has high energy density (>500Wh / kg), slow self-discharging electrodes (the service life is more than ten years),...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01M4/583C01B31/00C01B32/10
CPCY02E60/10
Inventor 刘志超卢嘉春方荃黄萍朱敏华
Owner NORTHWEST INST OF NUCLEAR TECH