what's Fuse Energy?
Fuse Energy is a decentralized physical infrastructure network (DePIN) that integrates renewable energy services with blockchain technology, primarily built on Solana as Project Zero. It operates as a full-stack energy company, developing utility-scale solar, wind, and green hydrogen sites, while trading energy on wholesale markets and supplying retail customers. Users connect home devices like solar panels, batteries, and EV chargers via a mobile app to monitor usage and participate in demand response programs. The protocol incentivizes efficient energy consumption by rewarding users with $ENERGY tokens for shifting usage to off-peak periods, reducing grid congestion. These tokens can be spent in the Fuse Store, redeemed for bill discounts, or traded. The system verifies flexibility contributions on-chain, creating a virtual power plant that balances real-time supply and demand across distributed resources.
Blockworks report on Fuse Energy's DePIN maturation; Privy enables pooled $ENERGY rewards for off-peak.
Links
x.com/fuseenergyFeatured in 1kx network's 2026 forecast report as a distributed energy DePIN project expected to move from pilots to programs in 2026.
Sponsored Laura Shin's podcast, gaining exposure through her media platform.
TGE scheduled for February 13, 2026.
Featured in a Blockworks Research report titled "Fuse Energy: DePIN Energy Maturation" published on January 22, 2026.
Integrated with Privy to enable a 'Pool' feature that allows households to pool $ENERGY rewards with neighbors for shifting electricity usage to off-peak times, powered by 0xSplits infrastructure.
Completed Series B funding round raising $70 million.
ARR reaches $300M, a 3x increase from the $100M ARR reported in September 2025.
The SEC issues a no action letter to the Solana depin project, providing regulatory clarity.
Reports $100M ARR and $100M funding from Multicoin and Accel, serving 50K+ UK homes with 18 MW solar/wind capacity. Operates Energy Network with $ENERGY token rewarding grid balancing, featuring a burn mechanism, and utilizing devices for flexible grid capacity driven by AI demand.