Single‐Step Deformation Processing of Ultrathin Lithium Foil and Strip

Mohanty, Debapriya P.; Mann, James B.; Payathuparambil, Vijayakumar Niranjan; Baruah, Sweta; Román‐Kustas, Jessica K.; Kustas, Andrew B.; Sugihara, Tatsuya; Trumble, Kevin P.; Chandrasekar, Srinivasan

doi:10.1002/admt.202301315

Adv Materials Technologies

2023

DOI: 10.1002/admt.202301315

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Single‐Step Deformation Processing of Ultrathin Lithium Foil and Strip

Debapriya P. Mohanty,

James B. Mann,

Vijayakumar Niranjan Payathuparambil

et al.

Abstract: Next‐generation, high‐efficiency energy storage and conversion systems require development of lithium metal batteries. But the high cost of production and constraints on thickness of lithium (anode) foils continue to limit adoption for integration into battery cell architectures. Here, a novel lithium anode manufacturing solution is demonstrated – single‐step production of ultrathin gauge foil formats directly from solid ingot. Hybrid cutting‐based deformation processes, involving large plastic strains and str… Show more

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2024

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Cited by 3 publications

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Recent advances in robust and ultra‐thin Li metal anode

Luo,

Cao,

et al. 2024

Carbon Neutralization

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Li metal batteries have been widely expected to break the energy‐density limits of current Li‐ion batteries, showing impressive prospects for the next‐generation electrochemical energy storage system. Although much progress has been achieved in stabilizing the Li metal anode, the current Li electrode still lacks efficiency and safety. Moreover, a practical Li metal battery requires a thickness‐controllable Li electrode to maximally balance the energy density and stability. However, due to the stickiness and fragile nature of Li metal, manufacturing Li ingot into thin electrodes from conventional approaches has historically remained challenging, limiting the sufficient utilization of energy density in Li metal batteries. Aiming at the practical application of Li metal anode, the current issues and their initiation mechanism are comprehensively summarized from the stability and processability perspectives. Recent advances in robust and ultra‐thin Li metal anode are outlined from methodology innovation to provide an overall insight. Finally, challenges and prospective developments regarding this burgeoning field are critically discussed to afford future outlooks. With the development of advanced processing and modification technology, we are optimistic that a truly great leap will be achieved in the foreseeable future toward the industrial application of Li metal batteries.

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Recent advances in robust and ultra‐thin Li metal anode

Luo,

Cao,

et al. 2024

Carbon Neutralization

View full text Add to dashboard Cite

show abstract

Optimization of Ultra-Thin Strip Rolling Process Parameters on Phosphor Bronze C5191 Using Grey Relational Analysis

Dantuluri,

Chalamalasetti,

Chodagam

2024

J. Inst. Eng. India Ser. D

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Enhancing Recoverable Bendability in High-Performance Ag₂Se-Based Thermoelectrics through Plastic Processing

Ding,

Shen,

et al. 2024

ACS Energy Lett.

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Urgent demand for a sustainable power supply for wearables promotes great efforts on the development of flexible thermoelectric devices. The elastic bendability allows the reservation of initial power and flexibility in inorganic thermoelectric films. The elasticity is related to the thickness engineeringly and the elastic strain scientifically, therefore guiding this work to focus on developing elastic thermoelectric generators using high-performing orthorhombic Ag 2 Se 1−x S x films that thinned the bulks through multipass hot-rolling at ∼393 K. Such a plastic deformation enables a creation of dense dislocations and a refinement of grain and, thereby, a dramatic increase in the elastic strain, impressively securing a full recoverability in transport properties for the obtained films even after 100,000 times bending within a radius down to ∼3 mm. The resultant achievement of extraordinary specific power density of ∼5 μW/cm-K 2 in a six-leg flexible device robustly demonstrates these alloys as a potentially sustainable power source for wearable electronics.

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Single‐Step Deformation Processing of Ultrathin Lithium Foil and Strip

Cited by 3 publications

References 35 publications

Recent advances in robust and ultra‐thin Li metal anode

Recent advances in robust and ultra‐thin Li metal anode

Optimization of Ultra-Thin Strip Rolling Process Parameters on Phosphor Bronze C5191 Using Grey Relational Analysis

Enhancing Recoverable Bendability in High-Performance Ag₂Se-Based Thermoelectrics through Plastic Processing

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Resources

About

Single‐Step Deformation Processing of Ultrathin Lithium Foil and Strip

Cited by 3 publications

References 35 publications

Recent advances in robust and ultra‐thin Li metal anode

Recent advances in robust and ultra‐thin Li metal anode

Optimization of Ultra-Thin Strip Rolling Process Parameters on Phosphor Bronze C5191 Using Grey Relational Analysis

Enhancing Recoverable Bendability in High-Performance Ag2Se-Based Thermoelectrics through Plastic Processing

Contact Info

Product

Resources

About

Enhancing Recoverable Bendability in High-Performance Ag₂Se-Based Thermoelectrics through Plastic Processing