Ultrathin metal lithium electrode, preparation method thereof, and application of ultrathin metal lithium electrode as negative electrode of secondary lithium battery

An ultra-thin metal and lithium electrode technology, applied in lithium batteries, non-aqueous electrolyte batteries, battery electrodes, etc., can solve the problems of waste of metal lithium capacity, mismatch of the capacity of metal lithium negative electrode and positive electrode material, safety hazards, etc., to achieve excellent Effects of Safety, Excellent Coulombic Efficiency and Cyclic Stability

Active Publication Date: 2021-06-08
BEIHANG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0007] Aiming at the above-mentioned technical problems such as the capacity mismatch between the metal lithium negative electrode and the positive electrode material in the above-mentioned dilithium secondary battery, resulting in the waste of metal lithium capacity and potential safety hazards, the first aspect of the present invention provides an ultra-thin metal lithium electrode, including a metal lithium layer and A current collector layer, the metal lithium layer is covered on the surface of the current collector layer, the thickness of the metal lithium layer is between 1 μm and 100 μm, and the metal lithium layer includes metal lithium, additive components and skeleton components;

Method used

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  • Ultrathin metal lithium electrode, preparation method thereof, and application of ultrathin metal lithium electrode as negative electrode of secondary lithium battery
  • Ultrathin metal lithium electrode, preparation method thereof, and application of ultrathin metal lithium electrode as negative electrode of secondary lithium battery
  • Ultrathin metal lithium electrode, preparation method thereof, and application of ultrathin metal lithium electrode as negative electrode of secondary lithium battery

Examples

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Embodiment 1

[0042] This embodiment provides a preparation method of the ultra-thin metal lithium electrode of the present invention, such as figure 1 shown, including steps:

[0043] Heating step S101: heating and melting metal lithium or lithium alloy in an inert gas environment to obtain liquid metal lithium;

[0044] Mixing step S102: adding the added ingredients and the skeleton ingredients into the liquid metal lithium in sequence, and mixing and dispersing to obtain a mixed lithium slurry;

[0045] Covering step S103: coating the mixed lithium slurry on the current collector layer to form a thin film layer, and after the thin film layer is cooled and solidified, an ultra-thin metal lithium electrode is obtained.

Embodiment 2

[0047] This embodiment provides another embodiment of the preparation method of the ultra-thin metal lithium electrode of the present invention, such as figure 2 shown, including steps:

[0048] Mixing step S104: in an inert gas environment, physically mix metal lithium or lithium alloy with additive components and skeleton components to obtain a mixture;

[0049] Heating step S105: heating the mixture until the metal lithium is melted to obtain a mixed lithium slurry;

[0050] Covering step S106: coating the mixed lithium slurry on the current collector layer to form a thin film layer, and after the thin film layer is cooled and solidified, an ultra-thin metal lithium electrode is obtained.

[0051] In Examples 1 and 2, the lithium alloy contains alloying elements that reduce the surface tension of liquid metal lithium, and the alloying elements include: Mg, Al, In, Zn, Ag, Ca, Sr, Ba, Sc, Y, Rh, One or more of Ir, Pd, Pt, Au, Cd, Hg, Ga, Tl, Ge, Pb, As, Sb, Bi, B, S, Se o...

Embodiment 3

[0057] This embodiment provides a specific implementation method in Example 1, using the transition metal carbide titanium carbide (Ti) containing the alloying element Mg and the added component -F functional group 3 C2 F), and the skeleton component one-dimensional nanomaterial carbon nanotube as an example, specifically illustrate the preparation method of the ultra-thin metal lithium electrode of the present invention, comprising steps:

[0058] Heating step: In an atmosphere of argon (purity greater than 99.999%), add 400 mg of metallic lithium block into a stainless steel pot and heat to 200° C. to melt the metallic lithium block into a liquid state.

[0059] Mixing steps: keep the heating temperature, first add 40mg metal magnesium flakes to the liquid metal lithium, then add 50mg Ti 3 C 2 F, stirring and mixing, the metal magnesium flakes are melted to form a liquid lithium-magnesium alloy, and then 50 mg of carbon nanotubes are added thereto, and the stirring is conti...

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Abstract

The invention discloses an ultrathin metal lithium electrode, a preparation method thereof, and application of the ultrathin metal lithium electrode as a negative electrode of a secondary lithium battery. The ultrathin metal lithium electrode comprises a metal lithium layer and a current collector layer, the surface of the current collector layer is coated with the metal lithium layer, the thickness of the metal lithium layer is 1-100 [mu] m, The metal lithium layer comprises metal lithium, an additive component and a framework component; the additive component comprises an inorganic material of which the surface contains halogen element functional groups, and / or an inorganic material which can be compatible with liquid metal lithium or lithium alloy; and the framework component is a nano material with a one-dimensional and / or two-dimensional structure, and the nano material with the one-dimensional or two-dimensional structure can form a three-dimensional network structure in the metal lithium layer. The ultrathin metal lithium electrode can be used as a negative electrode to manufacture a novel lithium battery with matched positive and negative electrode capacities, and has better safety and higher energy density due to the fact that the ultrathin metal lithium electrode does not contain excessive lithium.

Description

technical field [0001] The invention relates to the field of energy storage batteries, in particular to an ultra-thin metal lithium electrode, its preparation and its application as a negative electrode of a secondary lithium battery. Background technique [0002] Lithium metal has always been regarded as the most ideal negative electrode material for lithium batteries, which has a very high theoretical specific capacity (3860mAh g -1 ), low density (0.59g·cm -3 ) and the most negative electrochemical potential (about -3.04V compared to the standard hydrogen electrode) and other excellent properties. As early as the 1970s and 1980s, lithium metal batteries began to be commercialized. In 1972, Exxon Petroleum Company developed Li / TiS 2 Lithium secondary batteries, followed by Li / MnO 2 , Li / Ag 2 V 4 o 11 Lithium metal batteries have been researched and developed one after another, but metal lithium is used as the negative electrode material. In the process of repeated ch...

Claims

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Application Information

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IPC IPC(8): H01M4/134H01M4/1395H01M10/052
CPCH01M4/134H01M4/1395H01M10/052Y02E60/10
Inventor 杨树斌
Owner BEIHANG UNIV
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