Sulfur-based gel batteries for sustainable future, made in India for the world
Sulfur Cathode
Sustainable, can be utilized with Li-metal as well as sustainable sodium metal
LFP Now
EV and grid cells via US tech partner (pilot → plant)
Made In India
We want the world to see products made in India, Local supply chain and job creation
Sustainable
Without using cobalt, or destroying the forest while mining critical minerals, we focus on sustainable materials such as sodium, and sulfur
About Us
At Xavolt, our battery scientists and researchers are pioneering India's first sustainable, low-cost, beyond-lithium technologies. Our mission is to deliver cutting-edge batteries tailored for the Indian market, driving self-reliance in energy storage. We stand by the vision of "Made In India" concept by utilizing India's abundant minerals to produce a battery cell.
Satish Chandra
Founder & CEO
Co-founded Checko.ai - world’s first copy-proof anti-counterfeiting technology. Entrepreneur with 10+ years in printed electronics, scaling ventures through investments, partnerships & commercialization. Leading Xavolt’s vision for sustainable energy independence
Dr. Saravanakumar Murugan
Co-founder & CTO
7+ Years experience in research and development of various technologies including solid-state sulfur technologies. Expert in sulfur chemistry & electrolyte development
Our Values
Science First
Make-in-India
Safety & Quality
Open Partnership
Technology
Against commercial high temperature Na-S batteries where it needs 300 °C to operate. Our proprietary room temperature Na-S gel batteries can operate at 25 °C which are sustainable, low-cost energy storage solutions.
Na-S Gel Batteries
Core Platform
What it is:
Room-temperature Na-S full cells targeting scalable, low-cost storage.
Why it matters:
Abundant sodium and sulfur, lower material cost, strong sustainability profile.
Development Path:
Near-term:
Pouch prototypes, multi-kWh pilots, certification pathway.
Long-term:
Pilot → limited production, growing to GWh with Indian supply chain.
Key Feature:
Gel electrolyte roadmap (safer handling)
High sulfur-loading cathodes (R&D)
Cost focus: local sourcing and lean manufacturing
LFP Batteries
Bridge to Market
What we're doing:
Tech collaboration with a US firm to set up LFP pilot, then GWh plant in India.
Use cases:
EVs, commercial fleets, telecom/UPS, rooftop solar storage, grid storage.
Why it helps:
Near-term revenue, factory know-how, trained workforce—directly accelerates Na-S.
Strategic Advantage:
Proven technology today enables breakthrough innovation tomorrow.
How it will help?
Gel electrolyte
Advanced gel-based electrolyte roadmap for safe and high-performance cell
High sulfur-content
Increasing sulfur-content over the timeline ensures high energy dense cell
Cost-focused design
Local sourcing and lean manufacturing with low scrap rate for competitive pricing
Sustainability
Abundant Elements
Readily available sodium raw material and sulfur reduces dependence on scarce nickel
Lower Materials Footprint
Lower embedded emission compared to high-nickel, cobalt chemistries
Design for Circularity
Comprehensive recycling and second-life program roadmap for end-of-life battery management
High sulfur-content
Increasing sulfur-content over the timeline ensures high energy dense cell
Our Sustainability Journey
LFP Today
Current technology
Na-S Tomorrow
Sustainable future
Lower Impact
Reduced footprint
Transition
Xavolt will stand up LFP with its US partner for fast market entry and positive unit economics, while Na-S advances from R&D to pilot, and limited production. Knowledge, QA systems, and supplier networks all carry over to Na-S
Roadmap
LFP pilot & first Customers
(EV/BESS)
In Progress
GWh LFP ramp
Na-S pilots
Na-S production
Dual-portfolio
Contact Us
Let's build India's Battery Future Together
Get in Touch with Us
Email:
info@xavolt.com
Phone:
+91-7607429871
Address:
India:- 442, Manas Enclave,
Picnic Spot Road, India Nagar,
Lucknow, Uttar Pradesh-226016
USA:- 1 Grant St, STE390,
Framingham, MA, 01702, USA