Liquity vs Lido Staked Ether — how do they compare? Liquity trades at Rp3,053 (market cap Rp294,06M, Rp40,26M 24h volume), while Lido Staked Ether trades at Rp34,718,514 (market cap Rp318,46T, Rp161,07M 24h volume). The key difference: Lido Staked Ether is far larger — about 1082976.3× Liquity's market cap, and Liquity's supply is capped (96,3M / 100M LQTY (97%)) while Lido Staked Ether's keeps growing. Which is the better fit depends on your goals — on Pluang, investors hold Liquity for 21 Days and Lido Staked Ether for 20 Days on average.
| LQTY | STETH | |
|---|---|---|
Market Cap | Rp294,06M | Rp318,46T |
Volume (24h) | Rp40,26M | Rp161,07M |
Circulating Supply | 96,3M / 100M LQTY (97%) | 9,2M STETH |
Typical Hold Time | 21 Days | 20 Days |
Signals from Pluang's Aura AI — not financial advice
No Aura AI signal available yet.
Lido Staked Ether (stETH) trades at Rp34,794,576 with a market cap of Rp319.51 trillion, showing bullish technical signals from moving averages and oscillators despite overbought RSI readings. The asset holds strong support near Rp32.7 million and resistance at Rp35 million, with a short average hold time of 20 days indicating active trading. Recent Ethereum network upgrades continue to bolster staking demand, though no major protocol updates were reported this week.
Overall outlook remains positive due to Ethereum's staking ecosystem growth, but investors should monitor overbought conditions and regulatory risks. Key opportunities include high staking yields and network adoption, while major risks involve crypto volatility and potential liquidity shifts during market stress.
What Pluang investors did over the last 30 days
Liquity is a decentralized borrowing protocol on Ethereum that uses LQTY, a USD-pegged stablecoin. Ether holders can borrow LQTY with algorithmically adjusted redemption and loan issuance fees.
Read more on LQTY →StETH is a derivative token representing ETH staked on Lido. Lido is a decentralized protocol that lets users stake ETH and participate in Ethereum’s consensus mechanism.
Read more on STETH →