Global Next-Generation Battery Material Technology Analysis Report 2023: Advances in Energy and Power Density, Cycle Life, and Safety of Next-gen Batteries to Address Diverse Applications

DUBLIN, Jan. 5, 2024 /PRNewswire/ — The “Next-Generation Battery Material Technology Growth Opportunities” report has been added to ResearchAndMarkets.com’s offering.

This research identifies and analyzes technology advancements in materials used in emerging battery technologies. These technological advancements are dedicated to next-gen battery materials for solid-state, metal-air, lithium-sulfur, and sodium-ion batteries.

The study provides insights on key focus areas of the technology, their challenges, and adoption strategies for better utility. The commercial landscape of technological advancements in next-gen battery materials is also covered.

With the growing demand for electric vehicles (EVs) and renewable energy storage systems, the need for high-performance batteries is increasing. The shift toward improved battery technologies with higher energy density, longer lifespan, and increased safety is pushing technical advancements in next-generation (next-gen) battery material technologies. Lithium-ion (Li-ion) batteries are extensively used in EVs, mobile gadgets, and energy storage systems.

However, this technology has limitations in terms of energy capacity, recharging time, overheating, and thermal runaway, which can cause fires or explosions. Emerging materials include advancements that can overcome the challenges of conventional battery material degradation and the risk of thermal runaway.

Materials such as cobalt, nickel, and lithium can have a negative impact on the environment during extraction and processing. Sustainability and environmental impact are becoming more critical considerations in battery material development. Emphasis on developing materials that are less dependent on scarce or toxic elements is increasing.

The analyst has identified key areas of technology development for next-gen battery materials, categorized into different domains, such as:

Components including cathode, anode, electrolytes and separators;Battery technologies including solid-state, metal-air, lithium-sulfur, and sodium-ion batteries;Application markets including electric vehicles, consumer electronics, aerospace, defense, medical devices, and grid storage.

Governments and battery developers worldwide have recognized the significance of these advanced battery materials technologies and their disruption potential in renewable energy integration, electric vehicles, and grid-scale storage. Governments have initiated funding programs and grants for research institutes and material developers to promote research and the development of next-gen battery materials.

Key Questions Addressed:

What are the emerging technologies for next-gen battery materials?What are the R&D efforts in new material innovation for improved battery materials?What are the new trends in next-gen battery materials and application along with their commercialization stage?What are the growth opportunities for technology developers in the next-gen battery materials technologies?

Key Topics Covered:

Strategic Imperatives

Why Is It Increasingly Difficult to Grow? The Strategic Imperative Impact of the Top 3 Strategic Imperatives on the Next-generation (Next-gen) Battery Materials IndustryGrowth Opportunities Fuel the Growth Pipeline EngineResearch MethodologyScope of AnalysisSegmentation

Growth Opportunity Analysis

Significant Growth of Next-gen Battery R&D in the Last 5 YearsThe Challenges of Conventional Battery MaterialsSSB Technology OutlookMetal-air Battery Technology OutlookLi-S Battery Technology OutlookNa-ion Battery (NIB) Technology OutlookNext-gen Battery Material Development Enhancing the Overall Economic Viability of Energy Storage SystemsKey Differentiating Factors of Next-gen Battery MaterialsEmerging Next-gen Battery Material Technological Development to Overcome Restraints and Address Unmet NeedsNext-gen Battery Material Technology Growth DriversNext-gen Battery Material Technology Growth Restraints

Technology Analysis: Anode Materials

Anode Material Technology OutlookAnode Material Technology SegmentationMetal/Metalloid-based Anode Material Technology OutlookNext-gen Battery Anode Materials: Metal/MetalloidsNon-metal-based Anode Material Technology OutlookNext-gen Battery Anode Materials: Non-metalsPolymer-based Anode Material Technology OutlookNext-gen Battery Anode Materials: PolymersComposite-based Anode Material Technology OutlookNext-gen Battery Anode Materials: CompositesNanomaterial-based Anode Material Technology OutlookNext-gen Battery Anode Materials: NanomaterialsThe Top 3 Promising Anode Material Technologies – Analyst InsightsKey Stakeholders Developing Anode Material Technology for Next-gen Batteries

Technology Analysis: Cathode Materials

Cathode Material Technology OutlookCathode Material Technology SegmentationSulfur-based Cathode Material Technology OutlookNext-gen Battery Cathode Materials: SulfurTransition Metal-based Cathode Material Technology OutlookNext-gen Battery Cathode Materials: Transition MetalsMetal Oxide-based Cathode Material Technology OutlookNext-gen Battery Cathode Materials: Metal OxidesPolymer-based Cathode Material Technology OutlookNext-gen Battery Cathode Materials: PolymersCeramic-based Cathode Material Technology OutlookNext-gen Battery Cathode Materials: CeramicsNanomaterial-based Cathode Material Technology OutlookNext-gen Battery Cathode Materials: NanomaterialsThe Top 3 Promising Cathode Material Technologies – Analyst InsightsKey Stakeholders Developing Cathode Materials Technology for Next-gen Batteries

Technology Innovation: Electrolytes

Electrolyte Material Technology OutlookElectrolytes Materials Technology SegmentationInorganic Solid Electrolyte Technology OutlookNext-gen Electrolyte Materials: Inorganic Solid ElectrolytesPolymer Electrolyte Technology OutlookNext-gen Electrolyte Materials: Polymer-basedNitrile-based Electrolyte Technology OutlookNext-gen Electrolyte Materials: Nitrile-basedLi Salt Electrolyte Technology OutlookNext-gen Electrolyte Materials: Li SaltsOther Electrolytes Technology OutlookNext-gen Electrolyte Materials: OthersThe Top 3 Promising Electrolyte Material Technologies – Analyst InsightsKey Stakeholders Developing Electrolyte Material Technology for Next-gen Batteries

Technology Innovation: Separators

Separator Material Technology OutlookSeparator Material Technology SegmentationPolymer Separator Technology OutlookNext-gen Separator Materials: PolymersComposite Separator Technology OutlookNext-gen Separator Materials: CompositesNASICON Separator Technology OutlookNext-gen Separator Materials: NASICONTransition Metal Separator Technology OutlookNext-gen Separator Materials: Transition MetalsNitride Separator Technology OutlookNext-gen Separator Materials: NitridesNanomaterial-based Separator Technology OutlookNext-gen Separator Materials: NanomaterialsThe Top 3 Promising Cathode Material Technologies – Analyst InsightsKey Stakeholders Developing Separator Material Technology for Next-gen Batteries

Funding and Investment Scenario

Next-gen Battery Material Funding and Investment Outlook, 2019-2023Key Funding Activities for Next-gen Battery Materials

IP Analysis

Global Next-gen Battery Materials IP Analysis from 2019 to 2023Global Next-gen Anode Battery Materials IP Analysis from 2019 to 2023Global Next-gen Cathode Battery Materials IP Analysis from 2019 to 2023Global Next-gen Electrolyte Battery Materials IP Analysis from 2019 to 2023Global Next-gen Separator Battery Materials IP Analysis from 2019 to 2023

Growth Opportunity Analysis

Growth Opportunity 1: Advanced Polymer Electrolytes and New Processing MethodsGrowth Opportunity 2: Nano-based Anodes and Cathodes Development and CommercializationGrowth Opportunity 3: Highly Precise Material Thickness, Composition, and Morphology

For more information about this report visit https://www.researchandmarkets.com/r/lftmws

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