Battery Materials
Focusing on recycling technologies for LAB lead-acid batteries and LIB lithium-ion batteries, reintroducing key materials from waste batteries back into the energy industry value chain.
LOW-CARBON ENERGY MATERIALS
Hydrometallurgy uses low-temperature chemical separation technology to replace traditional pyrometallurgy.
ABOUT DENOVO ENERGY
DENOVO ENERGY is not only a technology adopter, but also a practitioner with long-term dedication to metal recycling and battery material regeneration. With years of experience in lead-acid battery recycling, lead ingot production, and lead alloy manufacturing, we understand the challenges of traditional recycling processes and recognize the key capabilities required for the industry’s transition toward low-carbon transformation.
In response to global trends in net-zero carbon reduction, circular economy, and energy transition, we focus on recycling technologies for LAB lead-acid batteries and LIB lithium-ion batteries. By integrating hydrometallurgy, electrolytic recovery, energy material circularity, and hydrogen energy development, we create energy solutions that are lower in carbon emissions, higher in efficiency, and more scalable.
Choosing us means choosing a partner with traditional industry experience, innovative technology integration capabilities, and a vision for sustainable development. We are committed to reintroducing waste batteries and metal resources back into the industrial value chain, helping enterprises reduce environmental impact, improve resource efficiency, and move together toward a more stable, cleaner, and more competitive energy future.
DENOVO FIELD
From battery materials and energy-saving solutions to hydrogen applications, DENOVO ENERGY connects key technologies required for energy transition through low-carbon processes and material circulation.
Focusing on recycling technologies for LAB lead-acid batteries and LIB lithium-ion batteries, reintroducing key materials from waste batteries back into the energy industry value chain.
Integrating battery recycling, energy storage applications, and energy management technologies to help enterprises reduce energy consumption and carbon emissions.
Developing hydrogen energy and hydrogen storage material application technologies to drive low-carbon energy transition and future sustainable energy development.
Continuously exploring advanced technologies, strategic partnerships, and diverse collaboration opportunities to expand the potential applications of low-carbon energy and circular materials.
SUSTAINABLE ENERGY TRANSITION