Our Mission

At CarbonFuelTech, our strength lies in the fusion of disciplines — from electrochemistry and materials science to mechanical design and sustainable engineering. Our team brings together researchers, innovators, and engineers driven by a shared mission: transforming captured CO₂ into clean, high-value fuels through cutting-edge electrochemical technology. With a foundation rooted in IIT Madras research excellence, we combine deep scientific insight with real-world engineering to scale green energy innovations for a decarbonized future.

Core Team Members

Dr. Deep Lata Singh

Co-Founder / Head of Electrocatalyst Development

Biography: Dr. Deep Lata Singh earned her Ph.D. from the Indian Institute of Technology Madras, India. She is currently associated with HySA Systems and the South African Institute for Advanced Materials Chemistry (SAIAMC) at the University of the Western Cape, South Africa, where she conducts postdoctoral research. Her research focuses on the electrocatalysis of small molecules (CO₂, N₂, and H₂O) for sustainable fuel production. As a co-founder of CarbonFuelTech, she contributes to developing a single-cell electrolyzer system for advancing clean energy technologies.

Qualifications: Ph.D. (Material Chemistry)

Areas of Expertise: Material Chemistry

Research Interests: Electrolysis for Fuels

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Dr. Harikrishna Rajubhadran

Co-Founder / Technology Development Lead

Biography: Dr. Harikrishna Rajubhadran holds a Ph.D. in Mechanical Engineering and Chemistry from the Indian Institute of Technology Madras, India. He leads technology development, device automation, and hydrogen generation systems at CarbonFuelTech. With expertise in thermochemical and photoelectrochemical processes, his work focuses on developing innovative solutions for green hydrogen generation and clean-energy integration.

Qualifications: Ph.D., Mechanical Engineering & Chemistry, IIT Madras

Areas of Expertise: Technology Development, Device Development & Automation, Hydrogen Generation, Thermochemical and Photoelectrochemical Processes

Research Interests: Green Hydrogen Generation, Catalyst Development, Nanomaterials, System Automation and Integration

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Rahul Rajendran

Co-Founder / Systems and Product Development

Biography: Rahul Rajendran is a co-founder of CarbonFuelTech, specializing in systems design, product engineering, and prototype development. He plays a key role in integrating mechanical, electrical, and software systems to optimize the company’s electrolyzer and automation platforms. Rahul is passionate about building efficient, scalable hardware solutions that accelerate the transition to sustainable fuel technologies.

Qualifications: B.Tech (Engineering)

Areas of Expertise: System Design and Automation, Product Development, Prototype Engineering

Research Interests: Renewable Energy Systems, Electrochemical Engineering

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Dr. Vineet Mishra

Catalyst Designer

Biography: Dr. Vineet Mishra completed his Ph.D. from the Indian Institute of Technology Madras (IIT Madras) in the field of electrocatalysis. His research focuses on the oxygen reduction reaction (ORR) for fuel cells and the nitrogen reduction reaction (NRR) to ammonia under ambient conditions. He is deeply interested in advancing a carbon-free circular economy through the development of green ammonia technologies.

Qualifications: Ph.D., IIT Madras | M.Sc., IIT (ISM) Dhanbad

Areas of Expertise: Catalyst Synthesis, Electrocatalysis, Ammonia Production under Ambient Conditions

Research Interests: Materials Chemistry, Electrolyzers, Industrial Upscaling

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Advisors

Prof. Sudarshan Raghavan

Scientific Advisor

Biography: Prof. Sudarshan Raghavan serves as a scientific advisor to CarbonFuelTech, providing strategic guidance in catalysis, electrochemical systems, and hydrogen technology. With extensive academic and industrial experience, he supports the team in research direction, innovation strategy, and technology validation.

Areas of Expertise:

Electrochemical Systems
Materials Science
Renewable Energy

Prof. Gangadhar Rao

Scientific Advisor

Biography: Prof. Gangadhar Rao advises CarbonFuelTech on scientific research and technology innovation. His expertise bridges energy materials, catalytic systems, and industrial process design, supporting the company’s mission to commercialize sustainable fuel technologies.

Areas of Expertise:

Catalysis
Sustainable Fuels
Process Engineering

Interns

Saniya Udayan

Web Development Intern

Biography: Saniya Udayan is a Web Development Intern at CarbonFuelTech, contributing to the design and enhancement of the company’s digital platforms. She focuses on creating responsive, user-friendly web interfaces that reflect CarbonFuelTech’s commitment to innovation and sustainability. Her interests span data science, AI, and web automation, where she aims to integrate intelligent solutions into clean-energy applications.

Qualifications: Bachelor of Computer Applications (BCA) – Ongoing

Areas of Expertise: Front-End Web Development (HTML, CSS, JavaScript), Database Management (MySQL), UI/UX Design and Graphic Concepts

Research Interests: Data Science and Analytics, Artificial Intelligence and Machine Learning, Web Automation and System Integration

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Blog

About Us

CarbonFuelTech envisions a future where greenhouse gases are valuable resources — not pollutants. Our core research focuses on converting carbon dioxide (CO₂), nitrogen compounds, and water into renewable fuels through electrochemical processes. These technologies are powered by clean electricity from solar, wind, and other renewable sources, enabling carbon-neutral fuel production and sustainable energy solutions.

CO₂ Electrolysis

Process:
We convert captured CO₂ into high-value carbon-based fuels such as methanol and formate through electrochemical reduction. This process closes the carbon loop by reusing atmospheric or industrial CO₂ emissions.

Technology:
Our proprietary metal oxide catalysts and renewable-powered electrochemical cells drive efficient CO₂ conversion under mild conditions. By optimizing catalyst composition and cell design, we enhance fuel selectivity and energy efficiency.

Impact:
CO₂ electrolysis offers a dual benefit — reducing atmospheric carbon levels while generating sustainable fuels for transportation, power generation, and chemical industries.

Ammonia Production

Process:
We develop electrochemical methods for converting nitrogen (N₂) or nitrogen oxides (NOx) into ammonia (NH₃) at ambient temperatures and pressures.

Advantage:
Unlike the energy-intensive Haber-Bosch process, our electroreduction technology operates using renewable electricity, resulting in a low-emission, low-energy pathway to ammonia synthesis.

Application:
Ammonia serves as a vital input for fertilizers and also functions as an efficient hydrogen carrier, enabling carbon-free fuel applications.

Hydrogen Production

Process:
Through water electrolysis, we split water molecules into hydrogen and oxygen using renewable electricity.

Impact:
The produced hydrogen is a clean, high-energy fuel suitable for fuel cells, industrial energy systems, and green chemical manufacturing. This technology forms a cornerstone of the emerging hydrogen economy.

Catalyst Innovation

At the heart of all our technologies are advanced catalyst materials that drive efficiency and scalability. We employ innovative synthesis methods such as hydrothermal processing, ball milling, and electrodeposition to create high-performance, cost-effective catalysts.

Our research emphasizes durability, selectivity, and ease of manufacturing — ensuring that our solutions can transition seamlessly from laboratory to industrial scale.

Talk to us

Have any questions? We are always open to talk about your business, new projects, creative opportunities and how we can help you.