Vehicle-to-Grid Technology Market Analysis and Forecast to 2033:By Vehicle Types (Electric Cars, Plug-in Hybrid Electric Vehicles (PHEVs), Electric Buses, Electric Trucks), V2G Components (V2G Chargers, Communication Equipment, Software Solutions), End-User Industries (Residential, Commercial, Industrial), and Region

The vehicle-to-grid (V2G) technology market size was USD 4.13 billion in 2023 and is anticipated to reach USD 20.59 billion in 2033, growing at a rate of 17.0% from 2024 to 2033.

Vehicle-to-Grid (V2G) technology is a system that allows electric vehicles (EVs) to not only consume power from the grid, but also to feed power back into the grid. This technology enables EVs to serve as both energy consumers and energy suppliers, creating a two-way flow of electricity between the vehicle and the power grid.

The concept of V2G technology is to utilize the battery capacity of EVs to store and release electricity to the grid when needed. This is made possible through the use of bi-directional charging, which allows the EV’s battery to be charged from the grid but also to discharge electricity back into the grid.

V2G technology offers several benefits. Firstly, it helps to balance the demand and supply of electricity in the grid, especially during peak hours. When there is a high demand for electricity, EVs can feed power back into the grid, reducing the strain on the grid and preventing blackouts. Additionally, V2G technology can also help to integrate more renewable energy sources into the grid, as EVs can store excess renewable energy and release it back into the grid when needed.

Moreover, V2G technology can also provide financial benefits to EV owners. By selling excess electricity back to the grid, EV owners can earn money and potentially offset the cost of owning and operating an EV. This can also encourage more people to adopt EVs, which can help reduce carbon emissions and improve air quality.

However, there are some challenges that need to be addressed for V2G technology to become more widespread. These include developing standards for bi-directional charging, ensuring grid stability, and addressing concerns about battery degradation. Nonetheless, V2G technology has the potential to revolutionize the way we use and manage energy, making EVs not just vehicles but also key players in the energy market.

Key Trends

Vehicle-to-Grid (V2G) technology is a revolutionary concept that allows electric vehicles (EVs) to not only charge from the grid but also discharge electricity back to the grid when needed. This technology has the potential to transform the way we use and manage energy, making it more sustainable and efficient. In this essay, we will discuss the key trends in Vehicle-to-Grid technology and their impact on the energy industry.

1. Integration with Renewable Energy Sources
One of the key trends in V2G technology is its integration with renewable energy sources such as solar and wind. With the increasing adoption of EVs, there will be a significant increase in the demand for electricity. This can put a strain on the grid, especially during peak hours. V2G technology can help mitigate this issue by allowing EVs to store excess renewable energy and discharge it back to the grid when needed. This will not only reduce the strain on the grid but also make renewable energy more viable by providing a storage solution.

2. Vehicle-to-Home (V2H) Integration
V2G technology is not limited to just supplying electricity to the grid; it can also be used to power homes. V2H integration allows EVs to discharge electricity back to a home, providing backup power during outages or peak demand periods. This can reduce the need for additional infrastructure and help homeowners save on their electricity bills. V2H integration also has the potential to create a more resilient and decentralized energy system.

3. Smart Charging and Grid Management
Another trend in V2G technology is the use of smart charging and grid management systems. Smart charging allows EVs to charge at times when there is excess renewable energy available and electricity demand is low. This helps balance the grid and reduces the need for expensive peaker plants. Grid management systems use data from EVs to optimize the distribution of electricity, reducing the strain on the grid and ensuring a more stable and efficient energy supply.

Key Drivers

Vehicle-to-Grid (V2G) technology is a rapidly evolving concept that enables bidirectional energy flow between electric vehicles (EVs) and the power grid. This technology allows EVs to not only consume electricity from the grid but also to feed back excess energy back into the grid, thereby providing a range of benefits to both the grid and EV owners. The key drivers of the Vehicle-to-Grid Technology market can be attributed to various factors such as government initiatives, technological advancements, and increasing demand for renewable energy sources.

1. Government Initiatives: The government initiatives and policies play a crucial role in driving the V2G technology market. Various governments around the world are promoting the adoption of electric vehicles to reduce carbon emissions and address climate change. For instance, the European Union has set a target to reduce CO2 emissions by 40% by 2030, and many countries have announced plans to ban the sale of new gasoline and diesel vehicles in the coming years. To support this transition, governments are offering incentives and subsidies for EV purchases and also providing funding for the development of V2G infrastructure.

2. Technological Advancements: The rapid advancements in technology have played a significant role in driving the growth of the V2G technology market. The development of smart grid infrastructure and the adoption of advanced metering systems have enabled the integration of V2G technology into the power grid. Moreover, the development of bidirectional chargers, vehicle-to-grid communication protocols, and energy management systems have made it possible for EVs to communicate with the grid and feed back energy.

3. Increasing Demand for Renewable Energy Sources: The growing concerns over climate change and the depletion of fossil fuel resources have led to an increase in the demand for renewable energy sources. V2G technology enables the integration of renewable energy sources such as solar and wind power into the grid by providing a storage solution for excess energy. This not only helps in reducing carbon emissions but also makes the grid more reliable and resilient.

Restraints & Challenges

Vehicle-to-Grid (V2G) technology is an innovative concept that enables electric vehicles (EVs) to not only consume energy, but also to return it to the grid when needed. This technology has the potential to revolutionize the energy industry by providing a more sustainable and efficient way of managing energy resources. However, like any emerging technology, V2G also faces several key restraints and challenges that need to be addressed for its successful implementation. In this essay, we will discuss some of the key restraints and challenges in the Vehicle-to-Grid Technology market.

1. Infrastructure limitations: One of the major challenges faced by V2G technology is the lack of infrastructure. The successful implementation of V2G requires a robust network of charging stations, communication systems, and advanced metering infrastructure. However, building this infrastructure is a costly and time-consuming process, and it may take several years before it becomes widely available. Without proper infrastructure, the potential of V2G technology cannot be fully realized, and it may limit its adoption by consumers and businesses.

2. Interoperability issues: Another significant challenge in the V2G market is the lack of standardization and interoperability among different EVs and charging equipment. Currently, there are no universal standards for V2G technology, and each manufacturer has its own proprietary systems, making it challenging to integrate different EVs into the grid. This lack of interoperability can hinder the widespread adoption of V2G technology, as it may limit the choice of EVs for consumers and make it difficult for utilities to manage the grid effectively.

Market Segments

The global  Vehicle-to-Grid Technology Market is segmented by vehicle types, V2G components, end-user industries, and region. By vehicle types, the market is divided into electric cars, plug-in hybrid electric vehicles (PHEVs), electric buses, electric trucks. Based on V2G components, it is bifurcated into V2G chargers, communication equipment, software solutions. On the basis of end-user industries, the market is classified into end-user industries. Region-wise, the market is segmented into North America, Europe, Asia-Pacific, and the Rest of the World.

Key Players

The global  Vehicle-to-Grid Technology Market report includes players like UCB S.A. (Belgium), GlaxoSmithKline plc (United Kingdom), Pfizer Inc. (United States), Novartis International AG (Switzerland), Eisai Co., Ltd. (Japan), Sanofi S.A. (France), Johnson & Johnson (United States), Abbott Laboratories (United States), Sunovion Pharmaceuticals Inc. (United States), Lundbeck A/S (Denmark)

 Vehicle-to-Grid Technology Market Report Coverage
  • The report offers a comprehensive quantitative as well as qualitative analysis of the current  Vehicle-to-Grid Technology Market outlook and estimations from 2023 to 2033, which helps to recognize the prevalent opportunities.
  • The report also covers qualitative as well as quantitative analysis of  Vehicle-to-Grid Technology Market in terms of revenue ($Million).
  • Major players in the market are profiled in this report and their key developmental strategies are studied in detail. This will provide an insight into the competitive landscape of the  Vehicle-to-Grid Technology Market .
  • A thorough analysis of market trends and restraints is provided.
  • By region as well as country market analysis is also presented in this report.
  • Analytical depiction of the  Vehicle-to-Grid Technology Market along with the current trends and future estimations to depict imminent investment pockets. The overall  Vehicle-to-Grid Technology Market opportunity is examined by understanding profitable trends to gain a stronger foothold.
  • Porter’s five forces analysis, SWOT analysis, Pricing Analysis, Case Studies, COVID-19 impact analysis, Russia-Ukraine war impact, and PESTLE analysis of the  Vehicle-to-Grid Technology Market are also analyzed.

Why GIS?

 

Table of Contents

Chapter 1. Vehicle-to-Grid Technology Market Overview
1.1. Objectives of the Study
1.2. Market Definition and Research & Scope
1.3. Research Limitations
1.4. Years & Currency Considered in the Study
1.5. Research Methodologies
1.5.1. Secondary Research
1.5.1.1. Data Collection
1.5.1.2. List of Secondary Sources
1.5.1.3. Key Data from Secondary Sources
1.5.2. Primary Research
1.5.2.1. List of Primary Research Sources
1.5.3. Market Flavor Estimation: Top-Down Approach
1.5.4. Market Flavor Estimation: Bottom-Up Approach
1.5.5. Data Triangulation and Validation

Chapter 2. Executive Summary
2.1. Summary
2.2. Key Highlights of the Market
2.3. Analyst’s Review

Chapter 3. Premium Insights on the Market
3.1. Market Attractiveness Analysis, by Region
3.2. Market Attractiveness Analysis, by Vehicle Types
3.3. Market Attractiveness Analysis, by V2G Components
3.4. Market Attractiveness Analysis, by End-User Industries

Chapter 4. Vehicle-to-Grid Technology Market Outlook
4.1. Vehicle-to-Grid Technology Market Segmentation
4.2. Market Dynamics
4.2.1. Market Drivers
4.2.1.1. Driver 1
4.2.1.2. Driver 2
4.2.1.3. Driver 3
4.2.2. Market Restraints
4.2.2.1. Restraint 1
4.2.2.2. Restraint 2
4.2.3. Market Opportunities
4.2.3.1. Opportunity 1
4.2.3.2. Opportunity 2
4.3. Porter’s Five Forces Analysis
4.3.1. Threat of New Entrants
4.3.2. Threat of Substitutes
4.3.3. Bargaining Power of Buyers
4.3.4. Bargaining Power of Supplier
4.3.5. Competitive Rivalry
4.4. PESTLE Analysis
4.5. Value Chain Analysis
4.5.1. Raw Material Suppliers
4.5.2. Manufacturers
4.5.3. Wholesalers and/or Retailers
4.6. Impact of COVID-19 on the Vehicle-to-Grid Technology Market
4.7. Impact of the Russia and Ukraine War on the Vehicle-to-Grid Technology Market
4.8. Case Study Analysis
4.9. Pricing Analysis

Chapter 5. Vehicle-to-Grid Technology Market , by Vehicle Types
5.1. Market Overview
5.2. Electric Cars
5.2.1. Key Market Trends & Opportunity Analysis
5.2.2. Market Size and Forecast, by Region
5.3. Plug-in Hybrid Electric Vehicles (PHEVs)
5.3.1. Key Market Trends & Opportunity Analysis
5.3.2. Market Size and Forecast, by Region
5.4. Electric Buses
5.4.1. Key Market Trends & Opportunity Analysis
5.4.2. Market Size and Forecast, by Region
5.5. Electric Trucks
5.5.1. Key Market Trends & Opportunity Analysis
5.5.2. Market Size and Forecast, by Region

Chapter 6. Vehicle-to-Grid Technology Market , by V2G Components
6.1. Market Overview
6.2. V2G Chargers
6.2.1. Key Market Trends & Opportunity Analysis
6.2.2. Market Size and Forecast, by Region
6.3. Communication Equipment
6.3.1. Key Market Trends & Opportunity Analysis
6.3.2. Market Size and Forecast, by Region
6.4. Software Solutions
6.4.1. Key Market Trends & Opportunity Analysis
6.4.2. Market Size and Forecast, by Region

Chapter 7. Vehicle-to-Grid Technology Market , by End-User Industries
7.1. Market Overview
7.2. Residential
7.2.1. Key Market Trends & Opportunity Analysis
7.2.2. Market Size and Forecast, by Region
7.3. Commercial
7.3.1. Key Market Trends & Opportunity Analysis
7.3.2. Market Size and Forecast, by Region
7.4. Industrial
7.4.1. Key Market Trends & Opportunity Analysis
7.4.2. Market Size and Forecast, by Region

Chapter 8. Vehicle-to-Grid Technology Market , by Region
8.1. Overview
8.2. North America
8.2.1. Key Market Trends and Opportunities
8.2.2. North America Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.2.3. North America Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.2.4. North America Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.2.5. North America Vehicle-to-Grid Technology Market Size and Forecast, by Country
8.2.6. The U.S.
8.2.6.1. The U.S. Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.2.6.2. The U.S. Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.2.6.3. The U.S. Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.2.7. Canada
8.2.7.1. Canada Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.2.7.2. Canada Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.2.7.3. Canada Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.2.8. Mexico
8.2.8.1. Mexico Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.2.8.2. Mexico Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.2.8.3. Mexico Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.3. Europe
8.3.1. Key Market Trends and Opportunities
8.3.2. Europe Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.3.3. Europe Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.3.4. Europe Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.3.5. Europe Vehicle-to-Grid Technology Market Size and Forecast, by Country
8.3.6. The U.K.
8.3.6.1. The U.K. Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.3.6.2. The U.K. Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.3.6.3. The U.K. Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.3.7. Germany
8.3.7.1. Germany Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.3.7.2. Germany Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.3.7.3. Germany Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.3.8. France
8.3.8.1. France Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.3.8.2. France Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.3.8.3. France Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.3.9. Spain
8.3.9.1. Spain Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.3.9.2. Spain Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.3.9.3. Spain Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.3.10. Italy
8.3.10.1. Italy Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.3.10.2. Italy Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.3.10.3. Italy Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.3.11. Netherlands
8.3.11.1. Netherlands Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.3.11.2. Netherlands Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.3.11.3. Netherlands Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.3.12. Sweden
8.3.12.1. Sweden Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.3.12.2. Sweden Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.3.12.3. Sweden Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.3.13. Switzerland
8.3.13.1. Switzerland Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.3.13.2. Switzerland Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.3.13.3. Switzerland Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.3.14. Denmark
8.3.14.1. Denmark Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.3.14.2. Denmark Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.3.14.3. Denmark Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.3.15. Finland
8.3.15.1. Finland Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.3.15.2. Finland Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.3.15.3. Finland Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.3.16. Russia
8.3.16.1. Russia Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.3.16.2. Russia Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.3.16.3. Russia Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.3.17. Rest of Europe
8.3.17.1. Rest of Europe Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.3.17.2. Rest of Europe Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.3.17.3. Rest of Europe Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.4. Asia-Pacific
8.4.1. Key Market Trends and Opportunities
8.4.2. Asia-Pacific Vehicle-to-Grid Technology Market Size and Forecast, by Country
8.4.3. Asia-Pacific Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.4.4. Asia-Pacific Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.4.5. Asia-Pacific Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.4.6. China
8.4.6.1. China Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.4.6.2. China Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.4.6.3. China Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.4.7. India
8.4.7.1. India Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.4.7.2. India Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.4.7.3. India Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.4.8. Japan
8.4.8.1. Japan Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.4.8.2. Japan Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.4.8.3. Japan Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.4.9. South Korea
8.4.9.1. South Korea Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.4.9.2. South Korea Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.4.9.3. South Korea Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.4.10. Australia
8.4.10.1. Australia Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.4.10.2. Australia Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.4.10.3. Australia Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.4.11. Singapore
8.4.11.1. Singapore Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.4.11.2. Singapore Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.4.11.3. Singapore Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.4.12. Indonesia
8.4.12.1. Indonesia Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.4.12.2. Indonesia Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.4.12.3. Indonesia Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.4.13. Taiwan
8.4.13.1. Taiwan Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.4.13.2. Taiwan Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.4.13.3. Taiwan Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.4.14. Malaysia
8.4.14.1. Malaysia Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.4.14.2. Malaysia Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.4.14.3. Malaysia Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.4.15. Rest of APAC
8.4.15.1. Rest of APAC Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.4.15.2. Rest of APAC Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.4.15.3. Rest of APAC Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.5. Rest of The World
8.5.1. Key Market Trends and Opportunities
8.5.2. Rest of The World Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.5.3. Rest of The World Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.5.4. Rest of The World Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.5.5. Rest of The World Vehicle-to-Grid Technology Market Size and Forecast, by Country
8.5.6. Latin America
8.5.6.1. Latin America Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.5.6.2. Latin America Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.5.6.3. Latin America Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.5.7. Middle East
8.5.7.1. Middle East Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.5.7.2. Middle East Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.5.7.3. Middle East Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components
8.5.8. Africa
8.5.8.1. Africa Vehicle-to-Grid Technology Market Size and Forecast, by Vehicle Types
8.5.8.2. Africa Vehicle-to-Grid Technology Market Size and Forecast, by End-User Industries
8.5.8.3. Africa Vehicle-to-Grid Technology Market Size and Forecast, by V2G Components

Chapter 9. Competitive Landscape
9.1. Market Overview
9.2. Market Share Analysis/Key Player Positioning
9.3. Competitive Leadership Mapping
9.3.1. Star Players
9.3.2. Innovators
9.3.3. Emerging Players
9.4. Vendor Benchmarking
9.5. Developmental Strategy Benchmarking
9.5.1. New Product Developments
9.5.2. Product Launches
9.5.3. Business Expansions
9.5.4. Partnerships, Joint Ventures, and Collaborations
9.5.5. Mergers and Acquisitions

Chapter 10. Company Profiles
10.1. UCB S.A. (Belgium)
10.1.1. Company Snapshot
10.1.2. Financial Performance
10.1.3. Product Offerings
10.1.4. Key Strategic Initiatives
10.1.5. SWOT Analysis
10.2. GlaxoSmithKline plc (United Kingdom)
10.2.1. Company Snapshot
10.2.2. Financial Performance
10.2.3. Product Offerings
10.2.4. Key Strategic Initiatives
10.2.5. SWOT Analysis
10.3. Pfizer Inc. (United States)
10.3.1. Company Snapshot
10.3.2. Financial Performance
10.3.3. Product Offerings
10.3.4. Key Strategic Initiatives
10.3.5. SWOT Analysis
10.4. Novartis International AG (Switzerland)
10.4.1. Company Snapshot
10.4.2. Financial Performance
10.4.3. Product Offerings
10.4.4. Key Strategic Initiatives
10.4.5. SWOT Analysis
10.5. Eisai Co., Ltd. (Japan)
10.5.1. Company Snapshot
10.5.2. Financial Performance
10.5.3. Product Offerings
10.5.4. Key Strategic Initiatives
10.5.5. SWOT Analysis
10.6. Sanofi S.A. (France)
10.6.1. Company Snapshot
10.6.2. Financial Performance
10.6.3. Product Offerings
10.6.4. Key Strategic Initiatives
10.6.5. SWOT Analysis
10.7. Johnson & Johnson (United States)
10.7.1. Company Snapshot
10.7.2. Financial Performance
10.7.3. Product Offerings
10.7.4. Key Strategic Initiatives
10.7.5. SWOT Analysis
10.8. Abbott Laboratories (United States)
10.8.1. Company Snapshot
10.8.2. Financial Performance
10.8.3. Product Offerings
10.8.4. Key Strategic Initiatives
10.8.5. SWOT Analysis
10.9. Sunovion Pharmaceuticals Inc. (United States)
10.9.1. Company Snapshot
10.9.2. Financial Performance
10.9.3. Product Offerings
10.9.4. Key Strategic Initiatives
10.9.5. SWOT Analysis
10.10. Lundbeck A/S (Denmark)
10.10.1. Company Snapshot
10.10.2. Financial Performance
10.10.3. Product Offerings
10.10.4. Key Strategic Initiatives
10.10.5. SWOT Analysis

*The List of Company Is Subject To Change During The Final Compilation of The Report
Market Segments

By Vehicle Types

  • Electric Cars
  • Plug-in Hybrid Electric Vehicles (PHEVs)
  • Electric Buses
  • Electric Trucks

By V2G Components

  • V2G Chargers
  • Communication Equipment
  • Software Solutions

By End-User Industries

  • Residential
  • Commercial
  • Industrial

By Region

  • North America
    • The U.S.
    • Canada
    • Mexico
  • Europe
    • The UK
    • Germany
    • France
    • Spain
    • Italy
    • Netherlands
    • Sweden
    • Switzerland
    • Denmark
    • Finland
    • Russia
    • Rest of Europe
  • The Asia Pacific
    • China
    • India
    • Japan
    • South Korea
    • Australia
    • Singapore
    • Indonesia
    • Taiwan
    • Malaysia
    • Rest of Asia-Pacific
  • Rest of the World
    • Latin America
    • The Middle East
    • Africa

Order this Report

Have questions about the scope of the report ?

Have specific requirements ?

Budget Constraints ?

Related Reports

An automotive seatbelt retractor is a device that…
Automotive interiors are the parts of a vehicle's…
A cylinder liner is a sleeve used to…
The Low-Speed Vehicle market size was USD 10.9…
An in-vehicle payment system is a system that…
Automotive lead acid batteries are used in cars…
The fuel injection system is responsible for delivering…
Vehicle Remote Diagnostic is a system that allows…
Advanced Driver Assistance Systems (ADAS) are a category…
The global event logistics market was valued at…