Graphite Fluoride is used as Solid lubricants, nuclear reactor neutron moderators and electrode active materials, reflective materials, etc.
Graphite Fluoride is widely used as an active material for high-energy batteries. Graphite Fluoride replaces fluorine as the positive active material, and combined with metal gallium and an organic solvent dissolved in LiBF4 or LiClO4, it can form a battery with high output power, high energy and high density. From the battery sequence point of view, the combination of F 2 and Li is ideal, but F2 has strong oxidizing properties and is very difficult to use. Based on the idea that fluorinated graphite can keep active fluorine in a solid state, Watanabe et al. used Graphite Fluoride as a battery active material. In a non-aqueous battery composed of Graphite Fluoride as the cathode and kangpoule as the anode, fluorine is stored in solid graphite, making the graphite an active material, creating favorable conditions for the energy density and stability of the battery. Practice has confirmed that Graphite Fluoride batteries have great advantages in potential stability and energy density.
According to the degree of fluorination, Graphite Fluoride can be divided into:
The low fluoride graphite: CF (0-049)
The medium fluoride graphite: CF (0.5~0.99)
The high fluoride graphite: CF (1.0~1.25).
Graphite Fluoride
Introduction
Graphite Fluoride is used as Solid lubricants, nuclear reactor neutron moderators and electrode active materials, reflective materials, etc.
Graphite Fluoride is widely used as an active material for high-energy batteries. Graphite Fluoride replaces fluorine as the positive active material, and combined with metal gallium and an organic solvent dissolved in LiBF4 or LiClO4, it can form a battery with high output power, high energy and high density. From the battery sequence point of view, the combination of F 2 and Li is ideal, but F2 has strong oxidizing properties and is very difficult to use. Based on the idea that fluorinated graphite can keep active fluorine in a solid state, Watanabe et al. used Graphite Fluoride as a battery active material. In a non-aqueous battery composed of Graphite Fluoride as the cathode and kangpoule as the anode, fluorine is stored in solid graphite, making the graphite an active material, creating favorable conditions for the energy density and stability of the battery. Practice has confirmed that Graphite Fluoride batteries have great advantages in potential stability and energy density.
1. Product Name
Graphite Fluoride, Fluorographite polymer
2. Composition /Information on Ingredients
Polyfluorocarbon and fluorocarbon .
Molecular formula: (CFx)n, 0<X<1.25
3. Product Categories
According to the degree of fluorination, Graphite Fluoride can be divided into:
The low fluoride graphite: CF (0-049)
The medium fluoride graphite: CF (0.5~0.99)
The high fluoride graphite: CF (1.0~1.25)
As the fluorine content increases, graphite changes from gray-black to snow-white; the higher the degree of fluorination, the better the lubricating properties of Graphite Fluoride.
FIG.1 Graphite Fluoride used as battery cathode.
FIG.2 Important materials for nuclear reactors .
As an important material for nuclear reactors, Graphite Fluoride is mainly used as moderator, reflective material and coating material. The characteristics of Graphite Fluoride are low gas transmittance, good antifouling performance, small thermal neutron absorption section, and small thermal neutron loss in the reactor, so the thermal efficiency of the reaction is also improved.
FIG.3 Chemically efficient catalyst containing Graphite Fluoride.
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