Product Code: A50137
The global zinc-air battery market is anticipated to reach $521.1 million by 2032, growing from $350.2 million in 2022 at a CAGR of 4.2% from 2023 to 2032. A zinc-air battery is a type of metal-air battery that generates electricity by oxidizing zinc and reducing oxygen. As this electrochemical process uses atmospheric oxygen as a reactant, the battery is naturally lightweight and efficient. Zinc anode, air cathode, and electrolyte are the three major components of a zinc-air battery. Zinc oxidizes at the anode during discharge, releasing electrons that go to the cathode via an external circuit, where oxygen reduction occurs. This electron movement produces electrical energy, which may be utilized for a variety of purposes. This process is reversed during the charging phase, allowing zinc to be electrochemically deposited back onto the anode.
Zinc-air batteries' robustness and high cycle life contribute greatly to their appeal for a wide range of applications. The number of charge and discharge cycles a battery may go through while maintaining a certain level of performance is referred to as cycle life. When thoroughly researched and manufactured, zinc-air batteries have a great cycle life, making them appropriate for applications requiring long-term endurance. This property is especially useful in grid energy storage systems and renewable energy integration, where batteries may be charged and discharged several times. Continuous technical advancements are being driven by ongoing R&D endeavors in the field of zinc-air batteries. These developments aim to solve issues such as energy efficiency, power density, and overall performance, hence widening the appeal.
A significant factor restricting the market growth is the adaptation of zinc-air batteries to environmental conditions. The combination of zinc and oxygen in these batteries generates energy, and any change in air conditions might reduce their efficacy. Airborne moisture and carbon dioxide can interrupt electrochemical operations, resulting in reduced efficiency and reliability. This sensitivity is problematic, especially in situations where the batteries are exposed to changing weather conditions, such as outdoor renewable energy systems. Furthermore, because of their open-cell layout, many zinc-air batteries are prone to contamination. The porosity nature of the air cathode allows dust, pollutants, and other particulate matter to enter the cell, potentially causing short circuits and reducing the overall performance of the battery.
Zinc-air batteries are becoming more popular due to the inherent advantages they offer over standard lithium-ion batteries. As zinc-air batteries offer a higher energy density than lithium-ion rivals, they allow for longer driving range in EVs. This advantage solves a fundamental issue for both customers and businesses, aiding in the reduction of 'range anxiety' associated with electric vehicles and thereby increasing their market attractiveness. Another major reason for using zinc-air batteries is their inexpensive cost. The elements in these batteries, particularly zinc, are plentiful and inexpensive, making them a more cost-effective alternative to the more expensive components found in lithium-ion batteries. This cost advantage has the potential to significantly reduce EV production costs, making them more affordable.
Zinc-air battery production includes sophisticated procedures that necessitate a consistent supply of ingredients. The COVID-19 pandemic caused production delays because of manufacturing facility closures, reduced capacity, or labor shortages owing to health and safety procedures. These delays not only impacted manufacturing schedules but have also increased prices for manufacturers, reducing zinc-air batteries' overall competitiveness in the energy storage industry. The pandemic has also had an impact on energy storage R&D, particularly breakthroughs in zinc-air battery technology. Many research facilities and academic institutions were forced to close or reduce their activities, impeding the progress of ongoing studies and limiting innovation in the sector.
The key players profiled in this report include Duracell, Electric Fuel Battery Corporation, ZAF Energy System, Ravoyac, Nantenergy, Varta AG, GP Batteries, Phinenergy, Renata SA, and Thunderzee. The market players are continuously striving to achieve a dominant position in this competitive market using strategies such as acquisitions, mergers, and research and development (R&D).
Key Benefits For Stakeholders
- This report provides a quantitative analysis of the market segments, current trends, estimations, and dynamics of the global zinc-air battery market analysis from 2022 to 2032 to identify the prevailing global zinc-air battery market opportunities.
- The market research is offered along with information related to key drivers, restraints, and opportunities.
- Porter's five forces analysis highlights the potency of buyers and suppliers to enable stakeholders make profit-oriented business decisions and strengthen their supplier-buyer network.
- In-depth analysis of the global zinc-air battery market segmentation assists to determine the prevailing market opportunities.
- Major countries in each region are mapped according to their revenue contribution to the global market.
- Market player positioning facilitates benchmarking and provides a clear understanding of the present position of the market players.
- The report includes the analysis of the regional as well as global global zinc-air battery market trends, key players, market segments, application areas, and market growth strategies.
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- Consumer Buying Behavior Analysis
- Investment Opportunities
- Upcoming/New Entrant by Regions
- Technology Trend Analysis
- New Product Development/ Product Matrix of Key Players
- Regulatory Guidelines
- Strategic Recommedations
- Additional company profiles with specific to client's interest
- Additional country or region analysis- market size and forecast
- Brands Share Analysis
- Criss-cross segment analysis- market size and forecast
- Expanded list for Company Profiles
- Historic market data
- Key player details (including location, contact details, supplier/vendor network etc. in excel format)
- Market share analysis of players at global/region/country level
- SWOT Analysis
Key Market Segments
By Type
- Non-Rechargeable
- Rechargeable
By Application
- Hearing Aids
- Safety Lamps
- Military Devices
- Others
By Region
- North America
- Europe
- Germany
- UK
- France
- Italy
- Spain
- Rest of Europe
- Asia-Pacific
- China
- Japan
- India
- South Korea
- Australia
- Rest of Asia-Pacific
- LAMEA
- Brazil
- United Arab Emirates
- Saudi Arabia
- South Africa
- Rest of LAMEA
Key Market Players:
- Phinenergy
- Renata SA
- Thunderzee
- Duracell
- Electric Fuel Battery Corporation
- ZAF Energy Systems
- Ravoyac
- nantenergy
- VARTA AG
- GP Batteries International Limited
TABLE OF CONTENTS
CHAPTER 1: INTRODUCTION
- 1.1. Report description
- 1.2. Key market segments
- 1.3. Key benefits to the stakeholders
- 1.4. Research methodology
- 1.4.1. Primary research
- 1.4.2. Secondary research
- 1.4.3. Analyst tools and models
CHAPTER 2: EXECUTIVE SUMMARY
CHAPTER 3: MARKET OVERVIEW
- 3.1. Market definition and scope
- 3.2. Key findings
- 3.2.1. Top impacting factors
- 3.2.2. Top investment pockets
- 3.3. Porter's five forces analysis
- 3.4. Market dynamics
- 3.4.1. Drivers
- 3.4.2. Restraints
- 3.4.3. Opportunities
- 3.5. Market Share Analysis
- 3.6. Value Chain Analysis
- 3.7. Regulatory Guidelines
- 3.8. Patent Landscape
CHAPTER 4: GLOBAL ZINC-AIR BATTERY MARKET, BY TYPE
- 4.1. Overview
- 4.1.1. Market size and forecast
- 4.2. Non-Rechargeable
- 4.2.1. Key market trends, growth factors and opportunities
- 4.2.2. Market size and forecast, by region
- 4.2.3. Market share analysis by country
- 4.3. Rechargeable
- 4.3.1. Key market trends, growth factors and opportunities
- 4.3.2. Market size and forecast, by region
- 4.3.3. Market share analysis by country
CHAPTER 5: GLOBAL ZINC-AIR BATTERY MARKET, BY APPLICATION
- 5.1. Overview
- 5.1.1. Market size and forecast
- 5.2. Hearing Aids
- 5.2.1. Key market trends, growth factors and opportunities
- 5.2.2. Market size and forecast, by region
- 5.2.3. Market share analysis by country
- 5.3. Safety Lamps
- 5.3.1. Key market trends, growth factors and opportunities
- 5.3.2. Market size and forecast, by region
- 5.3.3. Market share analysis by country
- 5.4. Military Devices
- 5.4.1. Key market trends, growth factors and opportunities
- 5.4.2. Market size and forecast, by region
- 5.4.3. Market share analysis by country
- 5.5. Others
- 5.5.1. Key market trends, growth factors and opportunities
- 5.5.2. Market size and forecast, by region
- 5.5.3. Market share analysis by country
CHAPTER 6: GLOBAL ZINC-AIR BATTERY MARKET, BY REGION
- 6.1. Overview
- 6.1.1. Market size and forecast By Region
- 6.2. North America
- 6.2.1. Key market trends, growth factors and opportunities
- 6.2.2. Market size and forecast, by Type
- 6.2.3. Market size and forecast, by Application
- 6.2.4. Market size and forecast, by country
- 6.2.4.1. U.S.
- 6.2.4.1.1. Market size and forecast, by Type
- 6.2.4.1.2. Market size and forecast, by Application
- 6.2.4.2. Canada
- 6.2.4.2.1. Market size and forecast, by Type
- 6.2.4.2.2. Market size and forecast, by Application
- 6.2.4.3. Mexico
- 6.2.4.3.1. Market size and forecast, by Type
- 6.2.4.3.2. Market size and forecast, by Application
- 6.3. Europe
- 6.3.1. Key market trends, growth factors and opportunities
- 6.3.2. Market size and forecast, by Type
- 6.3.3. Market size and forecast, by Application
- 6.3.4. Market size and forecast, by country
- 6.3.4.1. Germany
- 6.3.4.1.1. Market size and forecast, by Type
- 6.3.4.1.2. Market size and forecast, by Application
- 6.3.4.2. UK
- 6.3.4.2.1. Market size and forecast, by Type
- 6.3.4.2.2. Market size and forecast, by Application
- 6.3.4.3. France
- 6.3.4.3.1. Market size and forecast, by Type
- 6.3.4.3.2. Market size and forecast, by Application
- 6.3.4.4. Italy
- 6.3.4.4.1. Market size and forecast, by Type
- 6.3.4.4.2. Market size and forecast, by Application
- 6.3.4.5. Spain
- 6.3.4.5.1. Market size and forecast, by Type
- 6.3.4.5.2. Market size and forecast, by Application
- 6.3.4.6. Rest of Europe
- 6.3.4.6.1. Market size and forecast, by Type
- 6.3.4.6.2. Market size and forecast, by Application
- 6.4. Asia-Pacific
- 6.4.1. Key market trends, growth factors and opportunities
- 6.4.2. Market size and forecast, by Type
- 6.4.3. Market size and forecast, by Application
- 6.4.4. Market size and forecast, by country
- 6.4.4.1. China
- 6.4.4.1.1. Market size and forecast, by Type
- 6.4.4.1.2. Market size and forecast, by Application
- 6.4.4.2. Japan
- 6.4.4.2.1. Market size and forecast, by Type
- 6.4.4.2.2. Market size and forecast, by Application
- 6.4.4.3. India
- 6.4.4.3.1. Market size and forecast, by Type
- 6.4.4.3.2. Market size and forecast, by Application
- 6.4.4.4. South Korea
- 6.4.4.4.1. Market size and forecast, by Type
- 6.4.4.4.2. Market size and forecast, by Application
- 6.4.4.5. Australia
- 6.4.4.5.1. Market size and forecast, by Type
- 6.4.4.5.2. Market size and forecast, by Application
- 6.4.4.6. Rest of Asia-Pacific
- 6.4.4.6.1. Market size and forecast, by Type
- 6.4.4.6.2. Market size and forecast, by Application
- 6.5. LAMEA
- 6.5.1. Key market trends, growth factors and opportunities
- 6.5.2. Market size and forecast, by Type
- 6.5.3. Market size and forecast, by Application
- 6.5.4. Market size and forecast, by country
- 6.5.4.1. Brazil
- 6.5.4.1.1. Market size and forecast, by Type
- 6.5.4.1.2. Market size and forecast, by Application
- 6.5.4.2. United Arab Emirates
- 6.5.4.2.1. Market size and forecast, by Type
- 6.5.4.2.2. Market size and forecast, by Application
- 6.5.4.3. Saudi Arabia
- 6.5.4.3.1. Market size and forecast, by Type
- 6.5.4.3.2. Market size and forecast, by Application
- 6.5.4.4. South Africa
- 6.5.4.4.1. Market size and forecast, by Type
- 6.5.4.4.2. Market size and forecast, by Application
- 6.5.4.5. Rest of LAMEA
- 6.5.4.5.1. Market size and forecast, by Type
- 6.5.4.5.2. Market size and forecast, by Application
CHAPTER 7: COMPETITIVE LANDSCAPE
- 7.1. Introduction
- 7.2. Top winning strategies
- 7.3. Product mapping of top 10 player
- 7.4. Competitive dashboard
- 7.5. Competitive heatmap
- 7.6. Top player positioning, 2022
CHAPTER 8: COMPANY PROFILES
- 8.1. Duracell
- 8.1.1. Company overview
- 8.1.2. Key executives
- 8.1.3. Company snapshot
- 8.2. Electric Fuel Battery Corporation
- 8.2.1. Company overview
- 8.2.2. Key executives
- 8.2.3. Company snapshot
- 8.3. ZAF Energy Systems
- 8.3.1. Company overview
- 8.3.2. Key executives
- 8.3.3. Company snapshot
- 8.4. Ravoyac
- 8.4.1. Company overview
- 8.4.2. Key executives
- 8.4.3. Company snapshot
- 8.5. nantenergy
- 8.5.1. Company overview
- 8.5.2. Key executives
- 8.5.3. Company snapshot
- 8.6. VARTA AG
- 8.6.1. Company overview
- 8.6.2. Key executives
- 8.6.3. Company snapshot
- 8.7. GP Batteries International Limited
- 8.7.1. Company overview
- 8.7.2. Key executives
- 8.7.3. Company snapshot
- 8.8. Phinenergy
- 8.8.1. Company overview
- 8.8.2. Key executives
- 8.8.3. Company snapshot
- 8.9. Renata SA
- 8.9.1. Company overview
- 8.9.2. Key executives
- 8.9.3. Company snapshot
- 8.10. Thunderzee
- 8.10.1. Company overview
- 8.10.2. Key executives
- 8.10.3. Company snapshot