Latest Articles for Battery Technology

Exploring how defects in alkali metal aluminas affect ion conductivity for better batteries.

Research on lithium ion movement could enhance battery performance and charging speeds.

New model addresses voltage drop issues in Lithium-Sulfur batteries.

This article highlights issues in accurately measuring battery electrolyte properties.

New methods improve the search for solid-state ion conductors in energy storage.

Research on graphite intercalation reveals critical insights for battery performance.

This article discusses the development and testing of sodium-ion batteries using hard carbon anodes.

Research on silicon anodes and ionic liquids aims to improve battery performance.

Examining how diffusion influenced by stress affects material properties and applications.

DyFeO3 enhances performance of aqueous supercapacitors, improving energy storage capabilities.

This article explores health monitoring methods for retired electric vehicle batteries.

Improved methods enhance band gap predictions for lithium cobalt oxide in battery applications.

Researchers enhance ionic conductivity in sodium-ion batteries by modifying NASICON materials.

New approaches to porous electrodes enhance energy storage for batteries and capacitors.

New research highlights the potential of sodium batteries for energy storage.

Research explores calcium batteries as safer, cheaper energy storage solutions.

Analyzing the structural properties of amorphous NaOCl for energy storage applications.

A new method improves experimental design for better battery data collection.

New cathode material shows promise for sodium-ion batteries.

ISDM offers a faster, reliable way to measure lithium-ion movement in batteries.

Research highlights the benefits of cobalt in sodium-ion battery performance.

This study examines how entropic uncertainty relates to quantum battery efficiency.

Research on TMOFs aims to improve sodium-ion battery performance and stability.

A guide to maximizing profit and efficiency in battery energy storage systems.

Research highlights the potential of Pr-doped NASICON for energy storage.

Innovative approach enhances battery charging speed while ensuring safety.

Exploring innovative ways to enhance quantum battery performance and energy extraction.

A study on enhancing trading strategies in electricity markets using battery storage systems.

Exploring how unique shapes influence battery efficiency and durability.

Examining the issues in lithium-ion battery electrodes and ways to improve stability.

A new method for battery management using real performance data.

An innovative method to balance costs and efficiency in battery energy storage systems.

Examining how mechanical stresses affect pouch cell battery performance and lifespan.

Investigating how ions move in solids can improve energy storage solutions.

Research reveals new structures to enhance ionic conductivity in energy storage materials.

Examining the role of grain boundaries in Li6PS5Cl and its impact on battery performance.

TPDH-graphene shows promise in enhancing lithium-ion battery performance and longevity.

Evaluating MPC and RL for efficient battery control.

Research focuses on enhancing NCM materials in lithium-ion batteries through advanced doping techniques.

New models improve battery electrolyte efficiency predictions.