Month: January 2026

Zero Tree private-label diapers resolve Green Claims, CSRD, and EUDR as deterministic, machine-readable regulatory states for AI-consumable ERP procurement.

TORONTO, PARIS, FRANKFURT, Germany, BARCELONA, Spain, MILAN and WARSAW, Poland, Jan. 20, 2026 /PRNewswire/ – GreenCore Solutions Corp. today announced the activation of EU-ECO-10060, enabling AI-consumable ESG resolution for TreeFree private-label diapers across France, Germany, Spain, Italy, and Poland. The framework publishes deterministic, jurisdiction-resolved outcomes consumable directly by ERP, ESG, and procurement systems, without IT integration, licensing, or workflow modification.

EU-ECO-10060 | 2026 AI-Consumable Procurement Architecture

Implemented via national access layers in France (fr-eco-10060), Germany (de-eco-10060), Spain (es-eco-10060), Italy (it-eco-10060), and Poland (pl-eco-10060), EU-ECO-10060 resolves sustainability and regulatory scope through a three-part architecture:

• Resolved Compliance States
  Green Claims, CSRD, and EUDR expressed as deterministic ALLOW / RESTRICT / ESCALATE outcomes.
• Upstream Regulatory Resolution (RCO)
  Regulatory scope captured at the diaper unit level using Regulatory Compliance Objects (RCOs) prior to procurement, reporting, or shelf decisions.
• Digital Product Passport (DPP)
  Outcomes distributed as open data via DPP infrastructure hosted in Frankfurt, under an Open-Use licence, accessible across retailer platforms of choice at no cost.

Sustainability Scope Resolution

EU-ECO-10060 resolves EUDR applicability as NOT_APPLICABLE for non-lignocellulosic TreeFree diapers, with no forest-risk exposure and no TRACES-NT obligation, referenced by a canonical public URI.

“Modern procurement systems cannot interpret claims. They require resolved regulatory states,” said Matthew Keddy, CEO of GreenCore Solutions. “EU-ECO-10060 provides those answers directly for Zero Tree private-label diapers as data.”

Engineered Environmental Performance

Compared to conventional pulp-core diapers, product design delivers 47 % lower CO₂, 58 % lower water use, and 100 % zero tree fiber, expressed as scorable data attributes.

Performance Verification

Product performance is SGS-verified across absorbency, dryness, fit, and comfort, meeting national-brand thresholds while maintaining private-label economics.

Regulatory Notice: EU-ECO-10060, DPP-10060, and Resolution-10060 are technical, non-consumer, non-certification frameworks. No regulatory endorsement is implied. Statements align with the EU Green Claims Directive (Directive (EU) 2024/825) and the UK Green Claims Code.

About GreenCore Solutions Corp.

GreenCore Solutions Corp. develops zero-tree private-label diaper products engineered for verified performance and friction-free retail compliance onboarding. Active across North America, Latin America, and Europe, its products combine SGS-tested quality with object-based sustainability data designed for modern retailer compliance, procurement, and reporting environments. Learn more at www.greencoresolutions.com

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SOURCE GreenCore Solutions Corp.

Zero Tree private-label diapers resolve Green Claims, CSRD, and EUDR as deterministic, machine-readable regulatory states for AI-consumable ERP procurement.

TORONTO, PARIS, FRANKFURT, Germany, BARCELONA, Spain, MILAN and WARSAW, Poland, Jan. 20, 2026 /PRNewswire/ – GreenCore Solutions Corp. today announced the activation of EU-ECO-10060, enabling AI-consumable ESG resolution for TreeFree private-label diapers across France, Germany, Spain, Italy, and Poland. The framework publishes deterministic, jurisdiction-resolved outcomes consumable directly by ERP, ESG, and procurement systems, without IT integration, licensing, or workflow modification.

EU-ECO-10060 | 2026 AI-Consumable Procurement Architecture

Implemented via national access layers in France (fr-eco-10060), Germany (de-eco-10060), Spain (es-eco-10060), Italy (it-eco-10060), and Poland (pl-eco-10060), EU-ECO-10060 resolves sustainability and regulatory scope through a three-part architecture:

• Resolved Compliance States
  Green Claims, CSRD, and EUDR expressed as deterministic ALLOW / RESTRICT / ESCALATE outcomes.
• Upstream Regulatory Resolution (RCO)
  Regulatory scope captured at the diaper unit level using Regulatory Compliance Objects (RCOs) prior to procurement, reporting, or shelf decisions.
• Digital Product Passport (DPP)
  Outcomes distributed as open data via DPP infrastructure hosted in Frankfurt, under an Open-Use licence, accessible across retailer platforms of choice at no cost.

Sustainability Scope Resolution

EU-ECO-10060 resolves EUDR applicability as NOT_APPLICABLE for non-lignocellulosic TreeFree diapers, with no forest-risk exposure and no TRACES-NT obligation, referenced by a canonical public URI.

“Modern procurement systems cannot interpret claims. They require resolved regulatory states,” said Matthew Keddy, CEO of GreenCore Solutions. “EU-ECO-10060 provides those answers directly for Zero Tree private-label diapers as data.”

Engineered Environmental Performance

Compared to conventional pulp-core diapers, product design delivers 47 % lower CO₂, 58 % lower water use, and 100 % zero tree fiber, expressed as scorable data attributes.

Performance Verification

Product performance is SGS-verified across absorbency, dryness, fit, and comfort, meeting national-brand thresholds while maintaining private-label economics.

Regulatory Notice: EU-ECO-10060, DPP-10060, and Resolution-10060 are technical, non-consumer, non-certification frameworks. No regulatory endorsement is implied. Statements align with the EU Green Claims Directive (Directive (EU) 2024/825) and the UK Green Claims Code.

About GreenCore Solutions Corp.

GreenCore Solutions Corp. develops zero-tree private-label diaper products engineered for verified performance and friction-free retail compliance onboarding. Active across North America, Latin America, and Europe, its products combine SGS-tested quality with object-based sustainability data designed for modern retailer compliance, procurement, and reporting environments. Learn more at www.greencoresolutions.com

View original content to download multimedia:https://www.prnewswire.com/news-releases/greencore-solutions-releases-treefree-diaper-ai-consumable-esg-resolution-through-eu-eco-10060-302665017.html

SOURCE GreenCore Solutions Corp.

Zero Tree private-label diapers resolve Green Claims, CSRD, and EUDR as deterministic, machine-readable regulatory states for AI-consumable ERP procurement.

TORONTO, PARIS, FRANKFURT, Germany, BARCELONA, Spain, MILAN and WARSAW, Poland, Jan. 20, 2026 /PRNewswire/ – GreenCore Solutions Corp. today announced the activation of EU-ECO-10060, enabling AI-consumable ESG resolution for TreeFree private-label diapers across France, Germany, Spain, Italy, and Poland. The framework publishes deterministic, jurisdiction-resolved outcomes consumable directly by ERP, ESG, and procurement systems, without IT integration, licensing, or workflow modification.

EU-ECO-10060 | 2026 AI-Consumable Procurement Architecture

Implemented via national access layers in France (fr-eco-10060), Germany (de-eco-10060), Spain (es-eco-10060), Italy (it-eco-10060), and Poland (pl-eco-10060), EU-ECO-10060 resolves sustainability and regulatory scope through a three-part architecture:

• Resolved Compliance States
  Green Claims, CSRD, and EUDR expressed as deterministic ALLOW / RESTRICT / ESCALATE outcomes.
• Upstream Regulatory Resolution (RCO)
  Regulatory scope captured at the diaper unit level using Regulatory Compliance Objects (RCOs) prior to procurement, reporting, or shelf decisions.
• Digital Product Passport (DPP)
  Outcomes distributed as open data via DPP infrastructure hosted in Frankfurt, under an Open-Use licence, accessible across retailer platforms of choice at no cost.

Sustainability Scope Resolution

EU-ECO-10060 resolves EUDR applicability as NOT_APPLICABLE for non-lignocellulosic TreeFree diapers, with no forest-risk exposure and no TRACES-NT obligation, referenced by a canonical public URI.

“Modern procurement systems cannot interpret claims. They require resolved regulatory states,” said Matthew Keddy, CEO of GreenCore Solutions. “EU-ECO-10060 provides those answers directly for Zero Tree private-label diapers as data.”

Engineered Environmental Performance

Compared to conventional pulp-core diapers, product design delivers 47 % lower CO₂, 58 % lower water use, and 100 % zero tree fiber, expressed as scorable data attributes.

Performance Verification

Product performance is SGS-verified across absorbency, dryness, fit, and comfort, meeting national-brand thresholds while maintaining private-label economics.

Regulatory Notice: EU-ECO-10060, DPP-10060, and Resolution-10060 are technical, non-consumer, non-certification frameworks. No regulatory endorsement is implied. Statements align with the EU Green Claims Directive (Directive (EU) 2024/825) and the UK Green Claims Code.

About GreenCore Solutions Corp.

GreenCore Solutions Corp. develops zero-tree private-label diaper products engineered for verified performance and friction-free retail compliance onboarding. Active across North America, Latin America, and Europe, its products combine SGS-tested quality with object-based sustainability data designed for modern retailer compliance, procurement, and reporting environments. Learn more at www.greencoresolutions.com

View original content to download multimedia:https://www.prnewswire.com/news-releases/greencore-solutions-releases-treefree-diaper-ai-consumable-esg-resolution-through-eu-eco-10060-302665017.html

SOURCE GreenCore Solutions Corp.

ABU DHABI, UAE, Jan. 20, 2026 /PRNewswire/ — Envision Energy, a global leader in green technology, announced a Joint Development Agreement with Samruk-Kazyna Invest (SKI), the investment arm of Kazakhstan’s sovereign wealth fund, for the localized production of BESS at Envision Global Tech Day 2026 during Abu Dhabi Sustainability Week (ADSW). The signing was witnessed by Edward Hou, Senior Vice President and President of Asia-Pacific Region at Envision Energy, and Saken Muratuly, Representative of Samruk-Kazyna JSC Chaiman, aiming to advance energy storage localization, technology transfer, project deployment, and regional market expansion in Kazakhstan.

Kazakhstan, a leading energy player in Central Asia, is at a critical stage of its energy transition. Rapidly expanding wind and solar projects are driving growing demand for grid flexibility and energy storage. Envision and SKI will collaborate to establish local BESS assembly and manufacturing capabilities, supporting a stable supply chain, reducing reliance on imported equipment, and improving delivery efficiency and cost competitiveness.

“Kazakhstan is emerging as a green energy hub in Central Asia, leading the region in renewable installed capacity and project scale. Its wind and solar projects have repeatedly set new regional records, positioning the country as a benchmark for energy transition across Central Asia.” said Saken Muratuly. “Energy storage is a critical infrastructure for large-scale renewable integration. Localizing BESS will enhance Kazakhstan’s renewable energy integration, grid resilience, and ensure grid stability and energy security. This partnership marks an important starting point for deepened collaboration between SKI and Envision, stimulating local industries, creating high-quality jobs, and accelerating industrial upgrading. We look forward to advancing projects across multiple energy scenarios and establishing nationally recognized demonstration initiatives.”

“This partnership marks a major institutional and industrial milestone in clean energy collaboration, strengthening long-term trust and synergy across the green energy value chain.” added Edward Hou, “Envision will further deepen mutual trust and coordination across the green energy value chain, and leverage our strengths in large-scale BESS project delivery, digital energy management, and system safety to accelerate the country’s energy transition and sustainability goals. Building on this foundation, we will support Kazakhstan’s energy structure transformation and the achievement of its medium- to long-term emission-reduction targets, supporting green energy transition and sustainable development across Central Asia.“

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SOURCE Envision Energy

Sizewell C Program and Project Delivery Framework to support new low-carbon nuclear power station in Suffolk through 2030

DALLAS, Jan. 20, 2026 /PRNewswire/ — Jacobs (NYSE: J) has been selected by Sizewell C for its Professional Services Framework, supporting the delivery of a new nuclear power station on the Suffolk coast of England. The five-year framework will provide key program management and project delivery services for one of the United Kingdom’s most significant low-carbon energy developments.

The framework forms part of Sizewell C’s plan to mobilize world-class capability to support the delivery of the twin-reactor nuclear plant, planned to produce reliable, low-carbon electricity for approximately six million homes and contribute to achieving the U.K.’s net zero targets. Under the framework, Jacobs will provide strategic leadership, program integration, and design and engineering support to meet Sizewell C’s highly regulated technical and delivery requirements.

Jacobs Executive Vice President Europe Richard Sanderson said: “Sizewell C represents a critical step in securing the U.K.’s clean energy future. Through this Framework, Jacobs will help establish the structures, systems and governance needed for safe, efficient and integrated delivery of this nationally important program. Our role will focus on enhancing collaboration, strengthening delivery capability and advancing low-carbon power generation to support economic growth and energy security.”

Sizewell C estimates the project will support tens of thousands of jobs across the U.K., create 1,500 apprenticeships, and deliver billions of pounds in local, regional and national supply chain opportunities. Once operational, the station is expected to generate around 3.2 gigawatts of electricity, supporting the decarbonization of the U.K.’s power system and reducing reliance on imported energy.

Jacobs’ appointment builds on more than 60 years of experience supporting the global nuclear industry across the full asset lifecycle—from new build programs to decommissioning and waste management and disposal. The company continues to play a leading role in the U.K.’s civil nuclear industry, contributing to major programs such as Hinkley Point C and Sellafield.

At Jacobs, we’re challenging today to reinvent tomorrow – delivering outcomes and solutions for the world’s most complex challenges. With approximately $12 billion in annual revenue and a team of almost 43,000, we provide end-to-end services in advanced manufacturing, cities & places, energy, environmental, life sciences, transportation and water. From advisory and consulting, feasibility, planning, design, program and lifecycle management, we’re creating a more connected and sustainable world. See how at jacobs.com and connect with us on LinkedIn, Instagram, X and Facebook.  

About Sizewell C

Sizewell C is a new 3.2GW nuclear power station being built on the Suffolk coast. One of the biggest clean energy projects in Britain, Sizewell C will provide low-carbon electricity to six million homes for at least 60 years and save nine million tonnes of carbon dioxide from entering the atmosphere annually. The project will support thousands of jobs across the U.K., creating 1,500 apprenticeships, and will deliver 70% of its construction value to British suppliers. A British project, majority owned by the government, Sizewell C will play an important role in the transition to clean energy and in supporting the U.K.’s long-term energy independence.             Find out more at sizewellc.com.

Certain statements contained in this press release constitute forward-looking statements within the meaning of the Private Securities Litigation Reform Act of 1995. Forward-looking statements are statements that do not directly relate to any historical or current fact. When used herein, words such as “expects,” “anticipates,” “believes,” “seeks,” “estimates,” “plans,” “intends,” “future,” “will,” “would,” “could,” “can,” “may,” and similar words are intended to identify forward-looking statements. We base these forward-looking statements on management’s current estimates and expectations, as well as currently available competitive, financial and economic data. Forward-looking statements, however, are inherently uncertain. There are a variety of factors that could cause business results to differ materially from our forward-looking statements including, but not limited to, uncertainties as to, the timing of the award of projects and funding and potential changes to the amounts provided for under the Infrastructure Investment and Jobs Act and other legislation and executive orders related to governmental spending, including any directive to federal agencies to reduce federal spending or the size of the federal workforce, and changes in U.S. or foreign tax laws, including the tax legislation enacted in the U.S. in July 2025, statutes, rules, regulations or ordinances, including the impact of, and changes to tariffs and retaliatory tariffs or trade policies, that may adversely impact our future financial positions or results of operations, as well as general economic conditions, including inflation and the actions taken by monetary authorities in response to inflation, changes in interest rates and foreign currency exchange rates, changes in capital markets, the possibility of a recession or economic downturn, and increased uncertainty and risks, including policy risks and potential civil unrest, relating to the outcome of elections across our key markets and elevated geopolitical tension and conflicts, among others. For a description of these and additional factors that may occur that could cause actual results to differ from our forward-looking statements, see our filings with the U.S. Securities and Exchange Commission. The company is not under any duty to update any of the forward-looking statements after the date of this press release to conform to actual results, except as required by applicable law.

For press/media inquiries:
media@jacobs.com  

 

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SOURCE Jacobs

BANGALORE, India, Jan. 20, 2026 /PRNewswire/ — Global Next-Generation Advanced Batteries Market Size

According to Valuates Reports, The global Next-Generation Advanced Batteries Market was estimated to be worth USD 1099 Million and is forecast to reach approximately USD 7105 Million by 2031 with a CAGR of 31.0% during the forecast period 2025-2031.

This exceptional growth trajectory reflects the accelerating transition toward sustainable energy solutions and the increasing demand for high-performance energy storage systems across multiple industries. The market’s robust expansion is driven by technological breakthroughs in battery chemistry, escalating adoption of electric vehicles, and the critical need for grid-scale energy storage infrastructure to support renewable energy integration.

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Major Trends

The Next-Generation Advanced Batteries Market is experiencing unprecedented growth due to several transformative factors reshaping the global energy landscape:

• Government mandates and subsidies for electric vehicle adoption and renewable energy storage infrastructure worldwide
• Technological breakthroughs in battery energy density, safety, and lifecycle performance metrics
• Rising investments in grid modernization and utility-scale energy storage projects
• Declining costs of advanced battery materials and manufacturing processes
• Growing consumer demand for longer-lasting, faster-charging portable electronic devices
• Strategic partnerships between automotive manufacturers and battery technology innovators
• Increasing focus on sustainable and environmentally friendly battery recycling solutions.

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Trends Influencing the Growth of the Global Next-Generation Advanced Batteries Market

The Next-Generation Advanced Batteries Market is undergoing a paradigm shift as governments worldwide implement aggressive policies to combat climate change and reduce carbon emissions. Regulatory frameworks such as the European Union’s Green Deal, which mandates carbon neutrality by 2050, and the United States’ Inflation Reduction Act, providing substantial tax incentives for clean energy technologies, are accelerating market adoption. According to industry research, over 30 countries have announced plans to phase out internal combustion engine vehicles by 2035, creating an enormous demand for advanced battery technologies. China’s New Energy Vehicle mandate requires that 40% of new car sales be electric by 2030, while India’s National Electric Mobility Mission Plan targets significant EV penetration through fiscal incentives and charging infrastructure development.

Technological innovation stands as a cornerstone of market expansion, with research institutions and private enterprises investing billions in developing batteries with superior energy density, faster charging capabilities, and enhanced safety profiles. Solid-state battery technology represents a quantum leap forward, offering energy densities 2-3 times higher than conventional lithium-ion batteries while eliminating flammability risks associated with liquid electrolytes. Metal-air batteries are demonstrating theoretical energy densities approaching gasoline, making them ideal candidates for long-range electric aviation and heavy-duty transportation. Industry data suggests that next-generation batteries can achieve charge times under 15 minutes while maintaining over 2,000 charge cycles, addressing two critical barriers to mass adoption.

The surge in renewable energy installations is creating unprecedented demand for grid-scale energy storage solutions capable of balancing intermittent solar and wind generation. Global renewable energy capacity additions reached record levels, with solar and wind installations accounting for over 85% of new power generation capacity. This renewable energy boom necessitates advanced battery systems that can store excess energy during peak production periods and discharge during high-demand intervals. Utility companies are increasingly deploying battery energy storage systems (BESS) to improve grid stability, defer costly transmission infrastructure upgrades, and provide ancillary services. Market analysis indicates that grid-scale energy storage deployments are expected to increase by over 15-fold by 2030, representing a multi-billion-dollar opportunity for next-generation battery technologies.

Cost reduction through economies of scale and manufacturing innovations is making advanced batteries increasingly competitive with traditional energy storage solutions. The learning curve effect has driven battery pack costs down by over 89% over the past decade, and next-generation chemistries promise further reductions through the use of abundant materials and simplified production processes. Magnesium-ion batteries, for instance, utilize magnesium—the eighth most abundant element in Earth’s crust—offering a more sustainable and cost-effective alternative to lithium. Manufacturing advances such as dry electrode coating and roll-to-roll production techniques are reducing capital expenditure requirements while improving production efficiency.

The automotive industry’s transformation represents the single largest driver of next-generation battery demand, with global electric vehicle sales surpassing 14 Million units annually and projected to reach 30% of total vehicle sales by 2030. Leading automotive manufacturers are committing over D500 billion in investments toward electric vehicle development and battery production capacity. The shift extends beyond passenger vehicles to commercial transportation, with electric buses, delivery vans, and heavy-duty trucks entering mainstream deployment. Maritime and aviation sectors are also exploring advanced battery technologies for short-haul electric propulsion systems, opening entirely new application verticals.

Among battery types, lithium-sulfur technology is experiencing the most rapid advancement and market penetration. With theoretical energy densities exceeding 2,500 Wh/kg—approximately five times that of conventional lithium-ion batteries—lithium-sulfur batteries are particularly suited for aerospace applications and long-range electric vehicles. The technology’s reliance on sulfur, an abundant and inexpensive byproduct of petroleum refining, offers significant cost advantages. Recent breakthroughs in addressing polysulfide dissolution and dendrite formation have improved cycle life from hundreds to thousands of cycles, making commercialization increasingly viable. Major aerospace companies are integrating lithium-sulfur batteries into unmanned aerial vehicles and satellite systems, while automotive partnerships are accelerating development for next-generation electric vehicles targeting 500+ mile ranges.

In terms of applications, the transportation sector is demonstrating the highest growth rate and market expansion potential. The electrification of transportation encompasses not only passenger vehicles but also public transit systems, last-mile delivery fleets, and emerging electric aviation. Cities worldwide are transitioning bus fleets to electric power, with some metropolitan areas achieving 100% electric bus operations. The e-commerce boom is driving demand for electric delivery vehicles, with major logistics companies committing to electrify their entire fleets within the next decade. Urban air mobility concepts, including electric vertical takeoff and landing (eVTOL) aircraft, are moving from concept to reality, requiring batteries with exceptional power-to-weight ratios and safety characteristics that only next-generation chemistries can provide.

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Next-Generation Advanced Batteries Market Segmentation

By Type

• Lithium Sulfur
• Magnesium Ion
• Solid Electrodes
• Metal-Air
• Ultracapacitors

By Application

• Transportation
• Energy Storage
• Consumer Electronic

Key Companies

• OXIS Energy
• PATHION
• Sion Power
• GS Yuasa
• Nohm Technologies
• PolyPlus
• LockHeed Martin
• Pellion Technologies
• Seeo
• Solid Power
• Amprius
• 24M
• Phinergy
• Fluidic Energy
• Maxwell
• Ambri
• ESS

Market Share

The Next-Generation Advanced Batteries Market exhibits distinct segmentation patterns with lithium-sulfur technology commanding the largest market share at approximately 40%, driven by its superior theoretical energy density and cost advantages. This dominance reflects the technology’s maturity relative to other next-generation chemistries and its readiness for near-term commercialization. Metal-air batteries represent the second-largest segment, capturing significant research and development investments due to their extraordinary energy density potential, particularly for aviation and long-haul transportation applications. Solid electrode batteries are gaining momentum as safety concerns with liquid electrolytes drive demand for inherently safer alternatives, especially in consumer electronics and automotive applications where thermal runaway incidents have prompted regulatory scrutiny.

Among application segments, transportation accounts for the largest and fastest-growing share, fueled by the global automotive industry’s unprecedented pivot toward electrification. Government mandates banning internal combustion engines, combined with improving total cost of ownership for electric vehicles, are creating a self-reinforcing growth cycle. The transportation segment’s dominance is further amplified by the electrification of commercial vehicles, where total cost of ownership benefits are even more pronounced due to higher utilization rates and fuel savings. Energy storage follows as the second-largest application, experiencing exponential growth as renewable energy penetration increases and grid operators seek solutions for frequency regulation, peak shaving, and renewable integration. Consumer electronics, while representing a smaller absolute market share, maintains steady growth driven by demand for longer battery life in smartphones, laptops, wearables, and emerging device categories.

Global Next-Generation Advanced Batteries key players include OXIS Energy, PATHION, Sion Power, GS Yuasa, and Nohm Technologies. North America is the largest market, with a share of about 35%, followed by Europe, with a share of about 30 percent.

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What are some related markets to the Next generation advanced batteries market?

• Foil for Lithium-ion Battery Market
• The global market for Next-Gen Lithium Batteries was valued at USD 8374 Million in the year 2024 and is projected to reach a revised size of USD 20699 Million by 2031, growing at a CAGR of 13.8% during the forecast period.
• ATV Batteries Market
• Nanomaterial Supercapacitor Market
• Minerals for Lithium Batteries Market
• The global market for Electric Aviation Batteries was valued at USD 434 Million in the year 2024 and is projected to reach a revised size of USD 719 Million by 2031, growing at a CAGR of 7.1% during the forecast period.
• The global market for Binder for Lithium-Ion Batteries was valued at USD 2679 Million in the year 2024 and is projected to reach a revised size of USD 5140 Million by 2031, growing at a CAGR of 9.9% during the forecast period.
• The global market for Batteries for Active RFID was valued at USD 13.4 Million in the year 2024 and is projected to reach a revised size of USD 17.9 Million by 2031, growing at a CAGR of 4.3% during the forecast period.
• The global market for Aluminum Plastic Film for Pouch Batteries was valued at USD 1448 Million in the year 2024 and is projected to reach a revised size of USD 3183 Million by 2031, growing at a CAGR of 12.1% during the forecast period.
• The global market for Electrolytic Copper Foil, Rolled Copper Foil, and 3D Current Collectors for Liquid Lithium-Ion Batteries was valued at USD 8973 Million in the year 2024 and is projected to reach a revised size of USD 20174 Million by 2031, growing at a CAGR of 11.7% during the forecast period.
• The global market for 6C Supercharged Power Batteries was valued at USD 103 Million in the year 2024 and is projected to reach a revised size of USD 357 Million by 2031, growing at a CAGR of 20.0% during the forecast period.
• Sodium Hexafluorophosphate Electrolyte Salt Market

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SOURCE Valuates Reports