Oasys, a game-optimized blockchain network, has recently announced its collaboration with Slash Payment. Oasys provides developers with effective and scalable infrastructure, helping to streamline the development and distribution of blockchain games. The new partnership with Slash Payment will empower developers to embed payment systems into their projects, facilitating more effective payment solutions.
Slash Payment is a decentralized, non-custodial payment gateway allowing merchants to accept cryptocurrency tokens. Slash Payment works with 8 blockchain networks, with Oasys becoming the 9th. Slash is at the forefront of the crypto payments industry, currently offering KYC free, instant settlement, and 0% transaction fee processes for merchants.
This news follows the recent announcement that Slash Fintech is one of the participants in the Uniswap-Arbitrum Grant Program (UAGP). As Slash Payment’s prominence in the industry grows, it will continue to forge unique pathways for blockchain businesses to bring cryptocurrency payments to their users and vendors. The partnership with Oasys represents this vision, further expanding its reach.
Beyond just embedding payments, this partnership represents another step in Oasys’ journey to popularize blockchain games. As users will find it simple to earn, deposit, and transfer cryptocurrencies in blockchain games, another layer of incentives will inspire users to play.
Oasys and Slash Payment’s collaboration follows the wider industry trend of blockchain gaming rapidly gaining attention and investment. Between 2023 and 2030, the blockchain gaming market is predicted to increase at a compound annual growth rate (CAGR) of 21.8%.
As partnerships like these forge useful methods for users and vendors to integrate decentralized finance into their deployments, accessibility to blockchain solutions will only increase. In light of Slash’s connection to new blockchain environments, we will see cryptocurrency transfers in business become even more available.
This post was last modified on %s = human-readable time difference 15:44