Why Liquid Staking Tokens Will Become the New Money Market Instruments

Traditional DeFi lending locks up high-value assets like ETH, creating massive opportunity cost. This is a $30B+ inefficiency in TVL.\n- Stagnant Capital: Collateral earns zero yield while borrowed.\n- Protocol Risk: Lenders bear smart contract risk for minimal returns.

Liquid Staking Tokens (LSTs) like Lido's stETH and Rocket Pool's rETH transform staked ETH into composable, interest-bearing collateral.\n- Native Yield: Collateral automatically accrues staking rewards (~3-5% APY).\n- Capital Efficiency: Enables recursive strategies (e.g., stake -> borrow -> stake) without sacrificing base yield.

LSTs are becoming the preferred collateral across Aave, Compound, and EigenLayer, creating a flywheel.\n- Deepest Liquidity: LSTs offer superior liquidity vs. native assets on DEXs like Uniswap.\n- Risk Standardization: Protocols can optimize for a single, yield-bearing asset class, simplifying risk models and integrations.

Traditional staking locks capital, creating a massive opportunity cost. This $100B+ asset class is illiquid, preventing its use in DeFi's composable money markets.

• Capital Inefficiency: Locked ETH cannot be used for lending, leverage, or payments.
• Yield Fragmentation: Staking yield is isolated from the broader DeFi yield curve.

Protocols like Aave, Compound, and Morpho are integrating LSTs as primary collateral, treating them as superior to native assets.

• Higher Capital Efficiency: LSTs accrue yield while being used as collateral, enabling recursive strategies.
• Risk-Adjusted Returns: LSTs offer a ~3-5% native yield floor, making them safer, yield-bearing base collateral than volatile assets.

Projects like Ethena (synthetic dollars) and Lybra Finance (pegged stablecoins) use LSTs as the reserve asset to mint yield-generating stablecoins.

• Yield-Bearing Money: Created stablecoins inherit the LST's staking yield, creating a native positive carry asset.
• Systemic Leverage: This creates a new credit layer atop the staking economy, amplifying its financial utility.

The composability of LSTs will make them the default risk-free asset in crypto, outcompeting isolated lending pools.

• Unified Yield Curve: LST yield becomes the benchmark rate, with protocols like MakerDAO and Spark using it for monetary policy.
• Network Effects: As LST utility grows, its liquidity premium increases, creating a virtuous cycle that centralizes liquidity and trust.

Traditional staking locks up ~$100B+ in capital, creating massive opportunity cost. This illiquidity is the primary friction preventing institutional adoption and efficient capital deployment.

• Capital Inefficiency: Staked ETH earns ~3-4% APY but cannot be used elsewhere.
• Risk Concentration: Validators face slashing risk with zero hedging or diversification options.

LSTs like Lido's stETH and Rocket Pool's rETH transform staked assets into fungible, composable tokens. They are the native yield-bearing asset class for DeFi, superior to static stablecoins.

• Native Yield: LSTs accrue staking rewards automatically, acting as a positive-carry asset.
• Composability: Enables use as collateral in Aave, MakerDAO, and Compound while still earning base-layer yield.

LSTs enable recursive financial strategies impossible with traditional finance or simple staking. They create a flywheel for capital efficiency.

• Collateral Stacking: Borrow stablecoins against LSTs to farm additional yield in Curve/Convex pools.
• Derivative Foundation: LSTs are the underlying for perp DEXs like dYdX and structured products from Ribbon Finance.

The liquidity and trust-minimized settlement of LSTs will absorb the $4T+ traditional repo market. Protocols like EigenLayer add restaking yield, creating a superior risk-adjusted return profile.

• Institutional Gateway: LSTs offer 24/7 settlement and transparent on-chain audit trails.
• Yield Aggregation: Combines staking, restaking, and DeFi yields into a single, tradable instrument.