One-step stirring preparation of room temperature liquid metal negative
The present invention relates to a negative electrode active material including an Si—Sn—Fe—Cu based alloy, in which an Si phase has an area ratio in a range of from 35 to
WO2018152804A1
An easy-to-discharge mixing kettle for a lithium ion battery positive electrode powder material, comprising a base (1). is provided at the top of the material baffle plate (4); a stirring device
CN112768690A
The invention discloses a preparation method of a lithium ion battery cathode material recycled and regenerated from a waste graphite crucible, which comprises a grinding machine, a fusion
CN113996264A
The invention also discloses a preparation method of the reaction kettle for preparing the lithium battery cathode material; the invention solves the problems of uneven stirring and easy...
CN211854649U
The utility model provides a lithium cell negative electrode material drying device, its characterized in that: the stirring device comprises a stirring bin with a feeding hole and a discharging hole,
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The utility model relates to the technical field of stirring devices, in particular to a pneumatic stirring and mixing kettle for processing lithium battery electrolyte. The utility model has the
Coated reactor for preparing lithium battery negative electrode
A negative electrode material and reaction kettle technology, which is applied in the field of coating reaction devices for preparing lithium ion negative electrode materials, can solve the
CN216756415U
The utility model provides a reaction kettle for producing and preparing a lithium battery cathode material. Lithium cell negative pole material production preparation reation kettle includes: a
Preparation reaction kettle and preparation method of
A negative electrode material and reactor technology, which is applied in the field of lithium battery negative electrode material preparation, can solve the problems that affect the secondary use of the reactor, the step operation that cannot
Paste homogenizing and stirring process for lithium ion battery
The invention provides a preparation method for lithium ion battery negative paste. The preparation method at least comprises the following steps of providing a raw material
CN112221448A
The invention discloses a reaction kettle for producing lithium ion battery negative electrode materials in the field of lithium ion battery negative electrode material...
CN215877945U
The utility model relates to the field of lithium battery material processing equipment, in particular to a reaction kettle for processing a lithium battery carbon negative...
Nb1.60Ti0.32W0.08O5−δ as negative electrode active material
All-solid-state batteries (ASSB) are designed to address the limitations of conventional lithium ion batteries. Here, authors developed a Nb1.60Ti0.32W0.08O5-δ
Lithium ion battery negative electrode slurry stirring method
The name of the invention is a lithium ion battery negative electrode slurry stirring method, belongs to the technical field of lithium-ion batteries, and mainly solves the current problems.
CN219463388U
The utility model belongs to the technical field of lithium battery material processing equipment, and particularly relates to a reaction kettle for processing a lithium battery carbon negative
Preparation method for lithium battery negative-electrode slurry
The present invention provides a preparation method for lithium battery negative-electrode slurry. The preparation method comprises: step A. adding a thickener into a deionized water solvent,
WO2021004150A1
Disclosed is a preparation method for a negative electrode material SnS/ND-CN of a lithium-ion battery, the method comprising: step 1: placing melamine inside of a high-temperature
Method for preparing lithium ion battery negative electrode slurry
The present invention relates to a method for preparing a lithium ion battery negative electrode slurry, the preparation method comprising the following steps: S1: mixing active material and a
CN219647384U
The utility model discloses a vertical stirring kettle for producing a graphite cathode material of a lithium battery, which comprises the following components: a base; the support structure is
Preparation of room temperature liquid metal negative electrode
Request PDF | Preparation of room temperature liquid metal negative electrode for lithium ion battery in one step stirring | As a new type of self-healing material, room
Efficient electrochemical synthesis of Cu3Si/Si hybrids as negative
The silicon-based negative electrode materials prepared through alloying exhibit significantly enhanced electrode conductivity and rate performance, demonstrating excellent
CN216573073U
The utility model discloses a heating reaction kettle for producing a lithium battery cathode material, which comprises a reaction kettle body, wherein the top of the reaction kettle body is
Preparation method of rod-like tin-antimony alloy as negative electrode
The invention provides a preparation method of a rod-shaped tin-antimony alloy as a lithium ion battery negative electrode material, belonging to the technical field of lithium battery negative
Preparation method of tin-based lithium ion battery negative electrode
The invention discloses a preparation method of a tin-based lithium ion battery negative electrode material. The method comprises the following steps: adding a certain amount of selenium
CN115084421A
The invention relates to the technical field of lithium battery cathode material processing, and discloses a lithium battery cathode material coating and high-temperature carbonization
One-step stirring preparation of room temperature liquid metal
Si nanoparticles prepared by ball-milling (BM-Si) are expected as practical negative-electrode materials for lithium-ion batteries, but their performance is much lower than
CN109546095B
The invention discloses a preparation method of a lithium ion battery cathode material, belonging to the technical field of lithium ion battery energy material production 4 Ti 5 O 12 ) The
Preparation method of tin-based lithium ion battery negative
The method comprises the following steps: adding a certain amount of selenium powder and tin powder into a high-temperature reaction kettle, adding a certain amount of solvent I, carrying
Drying of lithium-ion battery negative electrode coating:
The initial specific discharge capacity of Pr doped SnO2 the negative electrode materials is 676.3mAh/g. After 20 cycles, the capacity retention ratio is 90.5%. The reversible capacity of
Molybdenum ditelluride as potential negative electrode material
Sodium-ion batteries can facilitate the integration of renewable energy by offering energy storage solutions which are scalable and robust, thereby aiding in the
5 FAQs about [Lithium battery negative electrode material stirring kettle]
What are the advantages of silicon based negative electrode materials?
The silicon-based negative electrode materials prepared through alloying exhibit significantly enhanced electrode conductivity and rate performance, demonstrating excellent electrochemical lithium storage capability. Ren employed the magnesium thermal reduction method to prepare mesoporous Si-based nanoparticles doped with Zn .
Can Cu-Si nanocomposite be used as a lithium-ion battery anode?
Analysis of the electrochemical properties of the synthesized Cu-Si nanocomposite reveals great promise for use as a lithium-ion battery anode. Table 3 summarizes recent advancements in the preparation of nano-silicon and its composites using molten salt electrolysis and various established technologies.
Can silicon be used in lithium-ion battery anodes?
The substantial volume expansion of silicon (approximately 400%) and inadequate electrical contact during the lithium-insertion process present constraints on its utility in the prospective generation of optimal lithium-ion battery anodes. Numerous innovative strategies have been proposed by researchers to address this issue , .
How to prepare RLM electrode sheet for electrochemical testing?
The preparation process of the RLM electrode sheet for electrochemical testing is as follows: RLM, PVDF, and acetylene black were mixed at a mass ratio of 8:1:1, in an appropriate amount of Nmethyl-2-pyrrolidone (NMP). The mixture was stirred for 1 h (2000 r min −1 ), and pasted onto the copper foils (coating thickness 100 μm).
How does electrolysis affect the morphology of a Ca-Cu-Si ternary alloy?
However, excessive electrolysis time leads to gradual decomposition of the molten salt during the late stage of electrolysis, resulting in the formation of a Ca-Cu-Si ternary alloy with Cu-Si in the cathode product. Additionally, substantial changes in product morphology are observed.