Study of Electroless Nickel Plating on Super Duplex Stainless Steel for Lithium-Ion Battery Cases: Electrochemical Behaviour and Effects of Plating Time by Byung-Hyun Shin
AI Customer ServiceIn order to investigate the impact of nickel-plating thickness on weld quality and geometry, a replication of the industrial process set up to manufacture a battery module has
AI Customer ServiceThe critical role of nickel in EV battery manufacturing cannot be understated – it is instrumental in green technology that will help forge a net zero future. The advent of electric vehicles (EVs) exemplifies a key step in the
AI Customer ServiceIn this work, nickel niobate NiNb 2 O 6 has been demonstrated for the first
AI Customer ServiceAdvances and Prospects of Surface Modification on Nickel-Rich Materials for Lithium-Ion Batteries Beijing Institute of Technology, Beijing, 100081 China. Beijing Institute of Technology Chongqing Innovation Center, Chongqing,
AI Customer ServiceLotte said it can tailor the nickel-plated foil to suite customer requirements by adjusting the nickel thickness and copper foil strength, to better suite the individual battery
AI Customer ServiceIn this study, multilayer nickel coatings with different phosphor contents and
AI Customer ServiceIn order to investigate the impact of nickel-plating thickness on weld quality
AI Customer ServiceLotte said it can tailor the nickel-plated foil to suite customer requirements by
AI Customer ServiceA lithium-ion or Li-ion battery is a type of rechargeable battery that uses the reversible intercalation of Li + ions into electronically conducting solids to store energy. In comparison
AI Customer ServiceIn this study, multilayer nickel coatings with different phosphor contents and alloying elements were prepared by electroless plating, and then their structure, composition,
AI Customer ServiceTo prevent lithium plating during low-temperature charging, Ouyang et al. [17] investigated the charging of lithium iron phosphate batteries at −10 °C. They found that lithium
AI Customer ServiceStudy of Electroless Nickel Plating on Super Duplex Stainless Steel for Lithium
AI Customer ServiceThis work focuses on the development of nickel-based quinone complexes as
AI Customer ServiceHeat-treated SAF2507 steel with a secondary phase exhibited excellent electroless Ni plating behaviour, which enhances the safety and durability of Li-ion batteries.
AI Customer ServiceStudy of Electroless Nickel Plating on Super Duplex Stainless Steel for Lithium-Ion Battery Cases: Electrochemical Behaviour and Effects of Plating Time March 2024 Metals
AI Customer ServiceBuy LOHUM''s low carbon range of lithium ion battery raw materials offering sustainable solutions for manufacturing and eco-friendly production processes. we recycle Lithium-ion batteries of
AI Customer ServiceAdvances and Prospects of Surface Modification on Nickel-Rich Materials for Lithium-Ion Batteries Beijing Institute of Technology, Beijing, 100081 China. Beijing Institute of
AI Customer ServiceIn this work, nickel niobate NiNb 2 O 6 has been demonstrated for the first time as a new high-rate anode material for lithium-ion batteries. The NiNb 2 O 6 host crystal
AI Customer ServiceThis work focuses on the development of nickel-based quinone complexes as electrode materials for next-generation rechargeable batteries. These complexes were
AI Customer ServiceNickel (Ni)-rich cathodes are among the most promising cathode materials of lithium batteries, ascribed to their high-power density, cost-effectiveness, and eco-friendliness,
AI Customer ServiceLithium ion batteries have become an integral part of our daily lives. Among a number of different cathode materials nickel-rich LiNi x Co y Mn z O 2 is particularly
AI Customer ServiceThe global Ni consumption was led by other Ni-based products, such as stainless steels, alloys, plating, and batteries. Therefore, the increasing demand for batteries along with
AI Customer ServiceThe pairing of lithium metal anode (LMA) with Ni-rich layered oxide cathodes for constructing lithium metal batteries (LMBs) to achieve energy density over 500 Wh kg −1
AI Customer ServiceMost of them use graphite as the anode and use different cathode materials, such as lithium nickel cobalt manganese oxide (NMC 111), lithium iron phosphate (LFP), and
AI Customer ServiceHeat-treated SAF2507 steel with a secondary phase exhibited excellent
AI Customer ServiceNickel (Ni)-rich cathodes are among the most promising cathode materials of lithium batteries, ascribed to their high-power density, cost-effectiveness, and eco-friendliness, having extensive applications from
AI Customer ServiceFast charging is restricted primarily by the risk of lithium (Li) plating, a side reaction that can lead to the rapid capacity decay and dendrite-induced thermal runaway of
AI Customer ServiceAll-solid-state lithium metal batteries with nickel-rich layered oxide cathode All-solid-state lithium metal batteries (ASSLMBs) employing nickel-rich layered oxide cathodes show the potential to meet the requirements for high energy density and safety. In recent years, significant progress has been made in ASSLMBs [ 121 ].
In this work, nickel niobate NiNb 2 O 6 has been demonstrated for the first time as a new high-rate anode material for lithium-ion batteries. The NiNb 2 O 6 host crystal structure exhibits only a single type of channel for lithium-ion intercalation leading to a single voltage plateau at 1.6–1.7 V during charge-discharge cycling.
To achieve energy density of lithium metal batteries (LMBs) over 500 W h kg −1, the LMA could match with intercalation-type cathodes like layered transitional metal oxides or Li-free conversion materials such as oxygen (O 2) and sulfur (S) [ , , , , ].
Electrolytic plating is fast but may lead to brittleness and high surface roughness. In contrast, electroless Ni plating offers slower deposition but provides uniform quality and low surface roughness [ 41, 42, 43, 44 ]. However, research on this topic is lacking, and this study aims to address this gap by investigating it.
Nickel, which is known for its excellent reactivity with metals, offers a high plating speed [ 38, 39, 40 ]. Furthermore, plating can be performed using both electrolytic and electroless methods. Electrolytic plating is fast but may lead to brittleness and high surface roughness.
Di Bari, G.A. Nickel Plating; ASM International: Almere, The Netherlands, 1994. [ Google Scholar] Baudrand, D.W. Electroless Nickel Plating; ASM International: Almere, The Netherlands, 1994. [ Google Scholar] Ghosh, S.K.; Grover, A.K.; Dey, G.K.; Totlani, M.K. Nanocrystalline Ni–Cu Alloy Plating by Pulse Electrolysis. Surf. Coat.
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