Business idea

Published: May 12, 2025

Valuation$50,000,000

High-performance graphene batteries for electric vehicles

Engineering

Essential metrics

3-Year valuation$50.0M

Social impact

Social

Health

Environment

Market$150.0B

MVP cost$500,000

Full version

Business Idea Concept.

The primary application of this idea lies in enhancing electric vehicle performance by incorporating high-performance graphene-based batteries, providing superior energy density, faster charging times, and extended lifespan compared to traditional batteries.

These advancements aim to revolutionize the EV industry by lowering energy storage costs, expanding vehicle range, and reducing charging infrastructure demands. The solution is essential for manufacturers striving to meet evolving consumer needs and facilitate widespread EV adoption.

Innovation at the Core.

Columbia University

The adoption of electric vehicles (EVs) is expected to grow significantly, with the market projected to increase to $800 billion by 2030. However, current battery technology poses challenges in terms of energy density, charging times, and longevity. Our innovation, high-performance graphene-based batteries, addresses these issues by providing enhanced energy capacity, significantly reduced charging durations, and longer battery lifespans. These advantages not only improve user experience for EV owners but also reduce infrastructure demands, accelerating global EV adoption. This cutting-edge technology positions itself uniquely to revolutionize the energy storage sector.

Technology Readiness Level

Prototype

Proof of Concept

Optimization

Commercialization

Ready for Scale

Learn more about the innovation

User Persona.

EV Automotive Manufacturers

User persona #1

Profile

Companies manufacturing electric vehicles for the consumer market.

Need

They need advanced battery technologies to increase efficiency and reduce costs.

Challenge

Current battery solutions are limited in energy density and charging speed.

Battery Technology Researchers

User persona #2

Profile

Scientists and engineers focusing on battery innovation and improvement.

Need

Access to advanced materials to explore their potential in next-gen batteries.

Challenge

Limited availability of breakthrough materials like graphene for R&D needs.

EV Enthusiast Consumers

User persona #3

Profile

Individuals enthusiastic about owning high-performance electric vehicles.

Need

Electric vehicles with longer ranges and faster charging to meet better usability.

Challenge

Current EV batteries have limitations that affect user experience and convenience.

Green Energy Advocates

User persona #4

Profile

Organizations and groups promoting sustainable energy solutions.

Need

Better EV adoption metrics to demonstrate progress in reducing fossil fuel reliance.

Challenge

Insufficient breakthrough technologies to substantially address current EV limitations.

Government Policymakers

User persona #5

Profile

Officials working on policies to promote sustainable transportation.

Need

Practical, accessible technological solutions to improve EV adoption rates.

Challenge

Technical and economic barriers in the current EV industry hinder policy efficacy.

Key Features.

Graphene batteries provide much higher energy density compared to current solutions, allowing EVs to run longer per charge.

Integrating graphene technology enables significantly reduced charging times for electric vehicles, enhancing convenience for users.

These batteries exhibit durability over numerous charge cycles, reducing the long-term replacement costs and contributing to sustainability.

Optimized manufacturing techniques for graphene batteries aim to lower energy storage costs, making EVs more affordable.

The enhanced battery range minimizes the reliance on extensive charging infrastructure, facilitating easier adoption of EV technology.

Market Size.

TAM

$150 billion

SAM

$10 billion

SOM

$1 billion

MVP Cost Short
Breakdown.

Research & Development

Includes formulation, tech development, or concept validation.

$100K–$200K

Component/Material Sourcing

Procurement of key materials, substrates, or parts for prototyping.

$50K–$150K

Design & Branding

Visual identity, packaging, UX, or interface design.

$25K–$100K

Initial Production / Build

Manufacturing or building a small batch/prototype for testing.

$75K–$200K

Testing & Certification

Includes regulatory, clinical, functional, or performance validation.

$50K–$150K

Total

MVP ready for demonstration and pilot studies

$300K–$0.8M

Project Evaluation After 3 Years.

Estimated valuation after 3 years (Post-MVP scaling)

$50.0M*

Estimated valuation based on revenue/EBITDA projections and growth models.

*These are rough estimates. For more precise calculations, generate a Business plan based on the chosen Business Idea.

Key cost drivers (variable by industry)

Proprietary technology or IP

Synergy potential

Customer data and analytics

Operational infrastructure

Major Competitors.

The major competitors in the EV battery market are companies that have established groundbreaking technologies to enhance performance, efficiency, and sustainability.

Tesla Inc.

Tesla is a leader in developing innovative battery technologies for EVs, having pioneered Gigafactories dedicated to lithium-ion batteries development.

Panasonic Corporation

Panasonic is a key partner with Tesla in battery production and is renowned for its high-quality lithium-ion and emerging solid-state batteries.

Contemporary Amperex Technology Co., Ltd. (CATL)

CATL is a global leader in battery manufacturing for EVs, focusing on introducing more sustainable and efficient battery solutions.

BYD Company Limited

BYD integrates battery production with EV manufacturing, launching innovative technologies like the Blade Battery.

LG Energy Solution

LG Energy Solution is a major player in the EV battery market, providing advanced battery systems to a range of global vehicle manufacturers.

High-performance graphene batteries - Why Choose Now?

Graphene batteries provide significantly higher energy density compared to conventional lithium-ion batteries, addressing range limitations.

The graphene structure allows for rapid ion transfer, enabling much quicker charging, meeting consumer demand for convenience.

The resilience of graphene materials enhances battery longevity, reducing replacement frequency and overall costs.

Graphene batteries require simpler, less-invasive resources and are recyclable, further reducing EVs' environmental impact.

Improved energy density and faster charging directly reduce the requirement for a widespread, costly charging network.

Graphene-based batteries offer transformative benefits for the electric vehicle market, addressing current technological limitations while creating new opportunities.