Aptos and Avalanche offer ultra-fast transaction speeds, powering DEXs with scalable and cost-efficient Layer 1 infrastructure.
Arbitrum and BASE boost DEX performance by reducing fees and congestion while remaining fully compatible with the Ethereum ecosystem.
Cellula introduces programmable incentives and advanced tokenomics, enhancing user engagement and asset distribution across DEX platforms.
By using blockchain and DEXs, people can easily trade digital assets at lightning speed, pay low costs, and enjoy the best security available anywhere. Since decentralized finance is becoming more popular worldwide, the main Layer 1 and Layer 2 chains are now enhancing their support for trustless, effective trading. Aptos, Arbitrum, Avalanche, BASE, and Cellula, people trading on decentralized exchanges (DEXs) can do so with less cost, less time, and greater confidence.
Aptos(APT): Enhances Throughput and Programming Flexibility
Source: CoinMarketcap
The platform uses Proof-of-Stake to secure the blockchain and allow decentralized exchanges through its original system and language. Aptos was founded by developers from Meta’s former Diem team and builds on Move, a secure language written in Rust for faster and safer DApp development. Due to parallel execution, Aptos aims for 150,000 TPS or more, suitable for trading platforms with many transactions.
Several prominent institutions are playing a significant role in developing the network. Last year, Aptos collected $400 million through investments from Andreessen Horowitz, Tiger Global, and Multicoin Capital. Its setup is optimized for high performance, enabling advanced DEXs and developer usability.
Avalanche(AVAX): Supports Multi-Chain Execution for DeFi
Source: CoinMarketcap
Avalanche is another Layer 1 blockchain that provides robust support for DEXs through its tri-chain structure. X-Chain, C-Chain and P-Chain are responsible for creating assets, deploying contracts and coordinating validators. Because of this separation, up to 6,500 TPS can be processed in parallel on the blockchain.
Avalanche C-Chain is designed to work with Ethereum, so DEXs like SushiSwap can access and use its network directly. Furthermore, Avalanche relies on its own consensus method to deliver high speed without giving up on decentralization. It helps move assets between different blockchains, making it easier to trade in those environments.
Arbitrum(ARB): Reduces Ethereum Bottlenecks for Trading Platforms
Source: CoinMarketcap
Arbitrum provides scalability for Ethereum, helps to lower costs and enhances how quickly decentralized exchanges operate. The platform's rollups gather transactions off-chain and then confirm these transactions on Ethereum. Relying on this architecture, DEX trading activities are less overcrowded and more efficient.
ARB tokens in their wallets can take part in voting on changes to the protocol and where funds are to be spent. The Arbitrum DAO allows DEX users to become involved in growing the Arbitrum ecosystem. Its roadmap includes the Orbit Layer 3 solution and Stylus—a feature enabling smart contract development in various programming languages. These innovations aim to broaden developer access and improve on-chain trading experiences.
Base(BASE): Emerging Networks Enhancing Tokenomics and Interoperability
Source : CoinMarketcap
BASE is a Layer 2 blockchain protocol designed to support scalable Ethereum transactions. Although some earlier iterations of BASE-related projects faced regulatory challenges, newer implementations focus on strengthening DeFi capabilities. The protocol supports non-upgradeable smart contracts and emphasizes liquidity provision through automated mechanisms.
Based, an automated liquidity protocol on BASE, allows DEXs to operate efficiently by eliminating the need for traditional market makers. This setup ensures that decentralized trading platforms on BASE can offer competitive rates and stable liquidity while reducing dependency on centralized systems.
Cellula(CELA): Introduces Virtual Proof-of-Work for Asset Distribution
Source : CoinMarketcap
Cellula operates on the Ethereum Virtual Machine (EVM) and introduces a programmable incentive layer aimed at transforming digital asset issuance. Its consensus model, known as virtual Proof-of-Work (vPOW), integrates computational theories such as Conway’s Game of Life and Variable Rate GDAs to create a dynamic, incentive-driven system for token distribution.
This mechanism supports the tokenomics of decentralized exchanges by providing tailored issuance strategies for DEX-related assets. By doing so, Cellula enhances transparency and predictability in token supply, enabling projects to optimize user engagement through structured reward systems and fair token allocations.
