Anne Lisa
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10 Altcoins That Could 10x–50x by 2025
If you missed BTC under $1,000 or ETH under $100 — this might be your second shot.
🔹 $DOT — Polkadot
Target: $100+
Interconnecting blockchains for a truly unified Web3 future.
🔹 $SOL — Solana
Target: $300
Ultra-fast layer 1 powering DeFi, NFTs & next-gen dApps.
🔹 $LINK — Chainlink
Target: $75
The backbone of on-chain data — essential for smart contract execution.
🔹 $ADA — Cardano
Target: $20
Highly scalable, research-backed, and eco-friendly blockchain.
🔹 $ATOM — Cosmos
Target: $30
Pioneering interoperability with the vision of an “Internet of Blockchains.”
🔹 $AVAX — Avalanche
Target: $200
Ethereum rival known for near-instant finality and low gas fees.
🔹 $VET — VeChain
Target: $1
Real-world supply chain solutions powered by blockchain.
🔹 $ALGO — Algorand
Target: $10
Sustainable, secure, and lightning-fast — built for mass adoption.
🔹 $EGLD — MultiversX (formerly Elrond)
Target: $400
DeFi, scalability, and enterprise-grade performance combined.
🔹 $XTZ — Tezos
Target: $20
Self-upgrading blockchain that evolves without forks.
📈 These projects have real-world use cases, solid teams, and long-term vision.
📉 Don’t chase hype. Accumulate early, and ride the wave.
💎 Not financial advice, but opportunity rarely knocks twice.
If you missed BTC under $1,000 or ETH under $100 — this might be your second shot.
🔹 $DOT — Polkadot
Target: $100+
Interconnecting blockchains for a truly unified Web3 future.
🔹 $SOL — Solana
Target: $300
Ultra-fast layer 1 powering DeFi, NFTs & next-gen dApps.
🔹 $LINK — Chainlink
Target: $75
The backbone of on-chain data — essential for smart contract execution.
🔹 $ADA — Cardano
Target: $20
Highly scalable, research-backed, and eco-friendly blockchain.
🔹 $ATOM — Cosmos
Target: $30
Pioneering interoperability with the vision of an “Internet of Blockchains.”
🔹 $AVAX — Avalanche
Target: $200
Ethereum rival known for near-instant finality and low gas fees.
🔹 $VET — VeChain
Target: $1
Real-world supply chain solutions powered by blockchain.
🔹 $ALGO — Algorand
Target: $10
Sustainable, secure, and lightning-fast — built for mass adoption.
🔹 $EGLD — MultiversX (formerly Elrond)
Target: $400
DeFi, scalability, and enterprise-grade performance combined.
🔹 $XTZ — Tezos
Target: $20
Self-upgrading blockchain that evolves without forks.
📈 These projects have real-world use cases, solid teams, and long-term vision.
📉 Don’t chase hype. Accumulate early, and ride the wave.
💎 Not financial advice, but opportunity rarely knocks twice.
Walrus and Web3 Interoperability Storage Backbone Beyond One Chain
Even though Walrus is built on the Sui blockchain, its design allows it to serve a broader purpose. It can provide decentralized storage for apps on other blockchains too for example Ethereum or Solana via standard APIs and integration layers. This means Walrus has the potential to become a multi-chain data layer, not tied to a single ecosystem.
This matters because storage needs are universal. Whether an app uses Ethereum for computation or Sui for logic, the data itself can live in a common, decentralized storage network that anyone can plug into. That level of interoperability moves storage out of being a bottleneck and into being a shared utility for the entire Web3 space.
#walrus
@Walrus 🦭/acc
$WAL
This matters because storage needs are universal. Whether an app uses Ethereum for computation or Sui for logic, the data itself can live in a common, decentralized storage network that anyone can plug into. That level of interoperability moves storage out of being a bottleneck and into being a shared utility for the entire Web3 space.
#walrus
@Walrus 🦭/acc
$WAL
Practical Uses: From Decentralized Frontends to AI Data Storage
Walrus isn’t just theoretical — it’s already being used in ways that hint at the future of Web3 data. For example:
• Decentralized frontends — “Walrus Sites” allow apps to host entire frontends (not just backend data) in a decentralized way. This means a whole website can be served without relying on a single server.
• Media and content — projects and media companies can store large archives of content, like videos and articles, in a resilient decentralized structure.
• AI datasets — the storage model supports large datasets needed for training or inference in AI (especially when paired with high availability and verifiable data).
These uses show that Walrus is not just for one type of app; it’s the data layer many categories of next-generation applications will need.
#walrus
@Walrus 🦭/acc
$WAL
• Decentralized frontends — “Walrus Sites” allow apps to host entire frontends (not just backend data) in a decentralized way. This means a whole website can be served without relying on a single server.
• Media and content — projects and media companies can store large archives of content, like videos and articles, in a resilient decentralized structure.
• AI datasets — the storage model supports large datasets needed for training or inference in AI (especially when paired with high availability and verifiable data).
These uses show that Walrus is not just for one type of app; it’s the data layer many categories of next-generation applications will need.
#walrus
@Walrus 🦭/acc
$WAL
Governance and Participation: How WAL Tokens Drive the Network
Walrus isn’t just a storage layer; it has its own economic ecosystem powered by the WAL token. WAL is used in several key ways within the network:
• Payment for storage — users pay in WAL to store data.
• Staking and incentives — node operators and their delegators stake WAL to help secure storage and earn rewards.
• Governance — WAL holders can participate in deciding important network parameters, such as pricing or penalties.
The way this works is designed to align incentives: those who help make the network stable and reliable earn rewards, while bad behavior (like failing to store data) can be penalized. This economic layer gives Walrus not just a technical storage system, but a self-governing, incentivized data ecosystem.
#walrus
@Walrus 🦭/acc
$WAL
• Payment for storage — users pay in WAL to store data.
• Staking and incentives — node operators and their delegators stake WAL to help secure storage and earn rewards.
• Governance — WAL holders can participate in deciding important network parameters, such as pricing or penalties.
The way this works is designed to align incentives: those who help make the network stable and reliable earn rewards, while bad behavior (like failing to store data) can be penalized. This economic layer gives Walrus not just a technical storage system, but a self-governing, incentivized data ecosystem.
#walrus
@Walrus 🦭/acc
$WAL
Tokenomics That’s Designed Like Infrastructure 36 Years and Economic Security
Most RWA talk focuses on giants. But Dusk’s own writing makes a strong point: SMEs are the backbone of the economy, especially in Europe.
Dusk notes that SMEs are over 99% of EU businesses, employ over 83 million people, and generate over half of Europe’s GDP. Yet these companies often struggle with capital markets: fundraising is slow and costly, managing shareholders is paperwork-heavy, and secondary liquidity is limited.
Dusk’s argument is that tokenization and native issuance can change that by turning shares or debt into regulated digital securities with:
• transferability between verified investors
• automated compliance (KYC/AML/transfer rules)
• programmable dividends and voting
• real-time ownership tracking
• lower issuance/management costs
This is a practical narrative because it ties blockchain to a real pain point: private markets are inefficient.
And it connects back to Dusk’s core: Dusk states privacy and compliance can coexist, and that confidentiality is necessary for compliance in many cases (you prove you meet rules without exposing sensitive business data).
A simple example: if a private company issues shares, it may not want its cap table and investor actions public on a block explorer. But it still needs legal compliance and clean records. That’s the kind of “real world” fit Dusk is aiming for.
#dusk
@Dusk
$DUSK
Dusk notes that SMEs are over 99% of EU businesses, employ over 83 million people, and generate over half of Europe’s GDP. Yet these companies often struggle with capital markets: fundraising is slow and costly, managing shareholders is paperwork-heavy, and secondary liquidity is limited.
Dusk’s argument is that tokenization and native issuance can change that by turning shares or debt into regulated digital securities with:
• transferability between verified investors
• automated compliance (KYC/AML/transfer rules)
• programmable dividends and voting
• real-time ownership tracking
• lower issuance/management costs
This is a practical narrative because it ties blockchain to a real pain point: private markets are inefficient.
And it connects back to Dusk’s core: Dusk states privacy and compliance can coexist, and that confidentiality is necessary for compliance in many cases (you prove you meet rules without exposing sensitive business data).
A simple example: if a private company issues shares, it may not want its cap table and investor actions public on a block explorer. But it still needs legal compliance and clean records. That’s the kind of “real world” fit Dusk is aiming for.
#dusk
@Dusk
$DUSK
Tokenomics That’s Designed Like Infrastructure 36 Years and Economic Security
Most staking systems are simple: lock tokens, earn rewards, wait. That works, but it’s rigid and rigid systems are hard to integrate into modern DeFi or user-friendly apps.
Dusk introduced Hyperstaking as “stake abstraction,” starting with delegated staking and moving toward a liquid staking model. The idea is that users can stake DUSK and still keep flexibility through liquid staking tokens that can be traded, lent, or used in other protocols.
This matters because staking is not just security — it’s user experience and capital efficiency. If a chain wants real adoption, it can’t force users to choose between “support the network” and “use your funds.”
Hyperstaking also matters for product design. Dusk has described Hyperstaking as enabling custom logic in staking contracts (like privacy-preserving staking and referral-based staking rewards). That turns staking into an app layer instead of a fixed rule.
A simple example: imagine a regulated platform that wants users to stake for access tiers, or a product that bundles staking + rewards in a clean UX. Programmable staking makes those experiences possible without inventing weird off-chain systems.
#dusk
@Dusk
$DUSK
Dusk introduced Hyperstaking as “stake abstraction,” starting with delegated staking and moving toward a liquid staking model. The idea is that users can stake DUSK and still keep flexibility through liquid staking tokens that can be traded, lent, or used in other protocols.
This matters because staking is not just security — it’s user experience and capital efficiency. If a chain wants real adoption, it can’t force users to choose between “support the network” and “use your funds.”
Hyperstaking also matters for product design. Dusk has described Hyperstaking as enabling custom logic in staking contracts (like privacy-preserving staking and referral-based staking rewards). That turns staking into an app layer instead of a fixed rule.
A simple example: imagine a regulated platform that wants users to stake for access tiers, or a product that bundles staking + rewards in a clean UX. Programmable staking makes those experiences possible without inventing weird off-chain systems.
#dusk
@Dusk
$DUSK
The More I Build in Crypto, the More I Believe the Best Systems Should Feel Invisible
After years of creating content and studying digital systems, I’ve learned a simple rule: the best technology disappears. Users don’t admire it, they rely on it. Electricity, the internet, banking rails—none of these are exciting, but all of them are essential. That’s the mental framework I use when evaluating Plasma.
Most crypto systems still feel like they want users to adapt to them. Learn new terms. Manage keys carefully. Accept volatility. Plasma flips this idea. It assumes users don’t want to learn anything new. They want money to behave like money. That assumption changes everything.
Plasma’s stablecoin-first design is central to this philosophy. Stability creates confidence. Confidence creates usage. When people know the value they send and receive will not change unexpectedly, they are willing to use the system for real needs like rent, payroll, or subscriptions. This moves crypto from theory into daily life.
One of the most thoughtful design choices Plasma makes is how it handles fees. Instead of forcing users to hold a separate token or understand network mechanics, it allows fees to be abstracted away. Sometimes the app pays. Sometimes the fee is bundled invisibly into the transaction. The important part is not how it works technically, but how it feels. It feels simple. And simplicity scales.
From a builder’s perspective, Plasma also respects developer reality. It is EVM-compatible, which means developers don’t need to throw away years of experience. They can reuse tools, contracts, and knowledge they already have. This lowers the cost of experimentation and increases the quality of applications built on the network. When builders face less friction, innovation becomes practical instead of theoretical.
What also stands out is how Plasma treats value. The token is not positioned as a shortcut to wealth. It exists to secure the network, coordinate validators, and support governance. Long-term value depends on actual payment activity. This aligns incentives honestly. If the system is useful, it grows. If it isn’t, it fades. That honesty is rare in crypto.
Plasma reminds me that mass adoption will not come from excitement. It will come from reliability. When sending digital dollars feels as normal as sending a message, people will stop thinking about the technology behind it. And when that happens crypto will finally become part of everyday life.
#Plasma
$XPL
Most crypto systems still feel like they want users to adapt to them. Learn new terms. Manage keys carefully. Accept volatility. Plasma flips this idea. It assumes users don’t want to learn anything new. They want money to behave like money. That assumption changes everything.
Plasma’s stablecoin-first design is central to this philosophy. Stability creates confidence. Confidence creates usage. When people know the value they send and receive will not change unexpectedly, they are willing to use the system for real needs like rent, payroll, or subscriptions. This moves crypto from theory into daily life.
One of the most thoughtful design choices Plasma makes is how it handles fees. Instead of forcing users to hold a separate token or understand network mechanics, it allows fees to be abstracted away. Sometimes the app pays. Sometimes the fee is bundled invisibly into the transaction. The important part is not how it works technically, but how it feels. It feels simple. And simplicity scales.
From a builder’s perspective, Plasma also respects developer reality. It is EVM-compatible, which means developers don’t need to throw away years of experience. They can reuse tools, contracts, and knowledge they already have. This lowers the cost of experimentation and increases the quality of applications built on the network. When builders face less friction, innovation becomes practical instead of theoretical.
What also stands out is how Plasma treats value. The token is not positioned as a shortcut to wealth. It exists to secure the network, coordinate validators, and support governance. Long-term value depends on actual payment activity. This aligns incentives honestly. If the system is useful, it grows. If it isn’t, it fades. That honesty is rare in crypto.
Plasma reminds me that mass adoption will not come from excitement. It will come from reliability. When sending digital dollars feels as normal as sending a message, people will stop thinking about the technology behind it. And when that happens crypto will finally become part of everyday life.
#Plasma
$XPL
Hyperstaking Changes Staking From “Lock & Wait” to “Programmable Participation”
Most staking systems are simple: lock tokens, earn rewards, wait. That works, but it’s rigid and rigid systems are hard to integrate into modern DeFi or user-friendly apps.
Dusk introduced Hyperstaking as “stake abstraction,” starting with delegated staking and moving toward a liquid staking model. The idea is that users can stake DUSK and still keep flexibility through liquid staking tokens that can be traded, lent, or used in other protocols.
This matters because staking is not just security — it’s user experience and capital efficiency. If a chain wants real adoption, it can’t force users to choose between “support the network” and “use your funds.”
Hyperstaking also matters for product design. Dusk has described Hyperstaking as enabling custom logic in staking contracts (like privacy-preserving staking and referral-based staking rewards). That turns staking into an app layer instead of a fixed rule.
A simple example: imagine a regulated platform that wants users to stake for access tiers, or a product that bundles staking + rewards in a clean UX. Programmable staking makes those experiences possible without inventing weird off-chain systems.
#dusk
@Dusk
$DUSK
Dusk introduced Hyperstaking as “stake abstraction,” starting with delegated staking and moving toward a liquid staking model. The idea is that users can stake DUSK and still keep flexibility through liquid staking tokens that can be traded, lent, or used in other protocols.
This matters because staking is not just security — it’s user experience and capital efficiency. If a chain wants real adoption, it can’t force users to choose between “support the network” and “use your funds.”
Hyperstaking also matters for product design. Dusk has described Hyperstaking as enabling custom logic in staking contracts (like privacy-preserving staking and referral-based staking rewards). That turns staking into an app layer instead of a fixed rule.
A simple example: imagine a regulated platform that wants users to stake for access tiers, or a product that bundles staking + rewards in a clean UX. Programmable staking makes those experiences possible without inventing weird off-chain systems.
#dusk
@Dusk
$DUSK
Dusk Makes Compliance Programmable
Most blockchains treat compliance as an afterthought something handled off chain. Dusk embeds compliance directly in the protocol and token standards. For example, a security token can be coded so only certain qualified investors can receive it, or so that it obeys AML/KYC checks automatically. This makes regulatory compliance part of the system, not an add-on.
#Dusk @Dusk
$DUSK
Most blockchains treat compliance as an afterthought something handled off chain. Dusk embeds compliance directly in the protocol and token standards. For example, a security token can be coded so only certain qualified investors can receive it, or so that it obeys AML/KYC checks automatically. This makes regulatory compliance part of the system, not an add-on.
#Dusk @Dusk
$DUSK
Real-World Assets Become Easier to Tokenize
Dusk isn’t just about crypto tokens it’s built for Real-World Asset (RWA) tokenization. Using standards like XSC and protocols like Citadel (a privacy-preserving identity framework), Dusk lets physical and financial assets be represented, traded, and managed on chain in a compliant way. This makes asset tokenization more efficient, private, and accessible.
#Dusk @Dusk
$DUSK
Dusk isn’t just about crypto tokens it’s built for Real-World Asset (RWA) tokenization. Using standards like XSC and protocols like Citadel (a privacy-preserving identity framework), Dusk lets physical and financial assets be represented, traded, and managed on chain in a compliant way. This makes asset tokenization more efficient, private, and accessible.
#Dusk @Dusk
$DUSK
Institutions See Dusk as a Bridge to On-Chain Finance
Big financial players care about both compliance and privacy. Dusk’s design privacy, regulatory logic, and institutional use cases like security token issuance positions it as a bridge between traditional finance and blockchain. This is why partnerships like tokenizing securities with regulated exchanges show its real-world potential.
#Dusk @Dusk
$DUSK
Big financial players care about both compliance and privacy. Dusk’s design privacy, regulatory logic, and institutional use cases like security token issuance positions it as a bridge between traditional finance and blockchain. This is why partnerships like tokenizing securities with regulated exchanges show its real-world potential.
#Dusk @Dusk
$DUSK
Dusk Balances Openness with Confidentiality
Unlike a private blockchain that locks out public participation, Dusk remains public and permissionless anyone can run a node, build, or interact while keeping transaction details confidential. This duality (open participation + private data) is rare and valuable because it gives both decentralization and privacy without forcing a trade-off.
#Dusk @Dusk
$DUSK
Unlike a private blockchain that locks out public participation, Dusk remains public and permissionless anyone can run a node, build, or interact while keeping transaction details confidential. This duality (open participation + private data) is rare and valuable because it gives both decentralization and privacy without forcing a trade-off.
#Dusk @Dusk
$DUSK
Dusk’s Developer Story: Privacy Without Reinventing the Wheel
Dusk isn’t just about privacy — it’s about making privacy usable. With tools like Rusk (ZK-VM), XSC standards, modular architecture, and plans for EVM compatibility, developers can build complex, compliant apps more easily than most privacy blockchains allow. This practical developer experience could be a key factor in its adoption.
#Dusk @Dusk
$DUSK
Dusk isn’t just about privacy — it’s about making privacy usable. With tools like Rusk (ZK-VM), XSC standards, modular architecture, and plans for EVM compatibility, developers can build complex, compliant apps more easily than most privacy blockchains allow. This practical developer experience could be a key factor in its adoption.
#Dusk @Dusk
$DUSK
Walrus reduces invisible fragility
Many Web3 apps look solid until one invisible piece fails: a server, a file host, a gateway. Walrus helps reduce that invisible fragility by pushing storage into a more explicit, shared system.
As a builder, that means fewer hidden dependencies that can unexpectedly take your app offline
#walrus @Walrus 🦭/acc
$WAL
Many Web3 apps look solid until one invisible piece fails: a server, a file host, a gateway. Walrus helps reduce that invisible fragility by pushing storage into a more explicit, shared system.
As a builder, that means fewer hidden dependencies that can unexpectedly take your app offline
#walrus @Walrus 🦭/acc
$WAL
Walrus is built for apps that don’t exist yet
A lot of infrastructure is built around today’s apps. Walrus feels like it’s built for future apps AI agents, autonomous systems, long-running services that need memory and state over time. Those systems need storage that doesn’t quietly disappear or change. Walrus seems aligned with that future, not just current use cases.
#walrus @Walrus 🦭/acc
$WAL
A lot of infrastructure is built around today’s apps. Walrus feels like it’s built for future apps AI agents, autonomous systems, long-running services that need memory and state over time. Those systems need storage that doesn’t quietly disappear or change. Walrus seems aligned with that future, not just current use cases.
#walrus @Walrus 🦭/acc
$WAL
Walrus treats storage as a shared responsibility
In Web2, storage is someone else’s job. In Web3, it often becomes everyone’s problem. Walrus takes a middle path: storage is handled by the network, but responsibility is distributed and verifiable. As a creator, that feels healthier. You’re not blindly trusting a company, but you’re also not rebuilding storage logic yourself.
#walrus @Walrus 🦭/acc
$WAL
In Web2, storage is someone else’s job. In Web3, it often becomes everyone’s problem. Walrus takes a middle path: storage is handled by the network, but responsibility is distributed and verifiable. As a creator, that feels healthier. You’re not blindly trusting a company, but you’re also not rebuilding storage logic yourself.
#walrus @Walrus 🦭/acc
$WAL
Walrus is not about speed, it’s about consistency
Many infra projects talk about being fast. Walrus feels more focused on being consistently available. That’s a subtle but important difference. For apps, it’s better to always work at a steady level than to be fast sometimes and broken other times. Walrus seems optimized for steady, dependable data access over time.
#walrus @Walrus 🦭/acc
$WAL
Many infra projects talk about being fast. Walrus feels more focused on being consistently available. That’s a subtle but important difference. For apps, it’s better to always work at a steady level than to be fast sometimes and broken other times. Walrus seems optimized for steady, dependable data access over time.
#walrus @Walrus 🦭/acc
$WAL
Security Model Speed and Bitcoin Trust
Plasma blends fast Proof-of-Stake finality with Bitcoin-anchored security. Transactions finalize in seconds for payments, while checkpoints are anchored to Bitcoin for long-term settlement assurance.
This creates a powerful balance: speed for daily commerce and Bitcoin-level credibility for trust. It’s a “move fast now, settle strong later” architecture.
#plasma $XPL
Plasma blends fast Proof-of-Stake finality with Bitcoin-anchored security. Transactions finalize in seconds for payments, while checkpoints are anchored to Bitcoin for long-term settlement assurance.
This creates a powerful balance: speed for daily commerce and Bitcoin-level credibility for trust. It’s a “move fast now, settle strong later” architecture.
#plasma $XPL
Walrus solves the scaling problem
One thing I’ve noticed building in Web3 is that apps don’t usually break loudly they break quietly.
Things get slower. Files take longer to load. Small data bugs start piling up. Walrus feels designed for this exact phase. It doesn’t just store data; it keeps performance predictable as apps grow. That’s underrated, but it’s what real products need.
#walrus @Walrus 🦭/acc
$WAL
One thing I’ve noticed building in Web3 is that apps don’t usually break loudly they break quietly.
Things get slower. Files take longer to load. Small data bugs start piling up. Walrus feels designed for this exact phase. It doesn’t just store data; it keeps performance predictable as apps grow. That’s underrated, but it’s what real products need.
#walrus @Walrus 🦭/acc
$WAL
Plasma: Built for Speed Today, Security Tomorrow
Plasma is designed with a clear vision: deliver instant usability today without sacrificing long-term security. It achieves this balance by combining the efficiency of Proof-of-Stake with the unmatched reliability of Bitcoin.
In everyday use, speed matters. Whether someone is paying at a shop or sending money to another person, waiting minutes for confirmation is simply not practical. Plasma addresses this by finalizing transactions within seconds, making it ideal for real-world commerce and daily financial activity.
At the same time, Plasma does not ignore the future. To ensure lasting trust and stability, it anchors its network state to Bitcoin through periodic checkpoints. Bitcoin’s proven security and decentralization act as a strong settlement layer, giving Plasma a solid foundation over the long run.
This approach creates a smart balance: fast and flexible for daily transactions, yet deeply secure when it comes to long-term value and final settlement. Plasma moves quickly when speed is needed and locks everything down when certainty matters most.
The result is a network that serves both everyday users and serious financial use cases—efficient in the present and dependable in the future.
#Plasma
$XPL
In everyday use, speed matters. Whether someone is paying at a shop or sending money to another person, waiting minutes for confirmation is simply not practical. Plasma addresses this by finalizing transactions within seconds, making it ideal for real-world commerce and daily financial activity.
At the same time, Plasma does not ignore the future. To ensure lasting trust and stability, it anchors its network state to Bitcoin through periodic checkpoints. Bitcoin’s proven security and decentralization act as a strong settlement layer, giving Plasma a solid foundation over the long run.
This approach creates a smart balance: fast and flexible for daily transactions, yet deeply secure when it comes to long-term value and final settlement. Plasma moves quickly when speed is needed and locks everything down when certainty matters most.
The result is a network that serves both everyday users and serious financial use cases—efficient in the present and dependable in the future.
#Plasma
$XPL
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