Sponsored Transactions Redefine User Acquisition Cost in 2024

introduction

THE USER ACQUISITION TRAP

Introduction: The Flawed Economics of Onboarding

Traditional web2 user acquisition models are economically unsustainable for mainstream blockchain adoption.

User acquisition cost (UAC) is broken. In web2, a $50 CAC is acceptable for a high-LTV user. In web3, a user's first transaction fails because they lack native gas tokens, creating a 100% abandonment rate before any value capture.

Sponsored transactions invert the model. Instead of paying for ads, protocols like Pimlico and Biconomy pay for the user's initial gas. This shifts the cost from speculative marketing to a direct, measurable on-chain event.

The counter-intuitive insight: Paying for a user's gas is cheaper than traditional CAC. A $0.10 sponsored tx that converts is more efficient than a $5 ad click that doesn't. This turns gas abstraction into a growth lever.

Evidence: Coinbase's Smart Wallet uses this model, reporting a 12x increase in successful user onboarding by eliminating the seed phrase and gas burden, proving the model's viability at scale.

key-trends

The New Marketing Funnel: From Cost Center to Growth Engine

Sponsored transactions flip user acquisition from a burn rate into a direct, measurable investment in protocol growth.

The Problem: The $100 Onboarding Tax

Every new user faces a wallet setup and gas funding barrier, a hidden tax that kills conversion. Traditional Web2-style ad spend is wasted when the final step requires crypto-native behavior.

~90% drop-off occurs at wallet creation/funding.
CAC becomes uncapped and unpredictable.
No direct link between marketing spend and on-chain activity.

~90%

Drop-Off

Uncapped

CAC

The Solution: Pay-for-Performance Gas Sponsorship

Protocols or dApps pay gas for users' first transactions, directly subsidizing the friction point. This turns CAC into a transaction-settled marketing expense.

Acquire users for the cost of gas (~$0.10-$2), not a $50+ ad click.
Guaranteed conversion: Payment only occurs on successful tx.
Integrates with Account Abstraction (ERC-4337) and services like Biconomy and Stackup for seamless UX.

$0.10-$2

CAC

100%

Converted

The Engine: Programmable Subsidy Rules

Sponsorship isn't a blunt instrument. Smart contracts enable granular, conditional logic for subsidy distribution, creating a true growth engine.

Target by cohort: First-time users, high-value minters, specific geographies.
Limit abuse: Cap per wallet, require specific actions (e.g., swap > $50).
Measure LTV/CAC instantly via on-chain analytics from Dune or Flipside.

Granular

Targeting

On-Chain

Analytics

The Network Effect: Sponsored Transactions as a Service

Infrastructure like Pimlico, Gelato, and Alchemy are building generalized paymaster networks. This commoditizes sponsorship, allowing any dApp to plug into a shared liquidity pool for user acquisition.

Lowers operational overhead for individual teams.
Creates a liquid market for gas sponsorship.
Enables cross-chain onboarding strategies via intents and bridges like LayerZero.

Commoditized

Infra

Cross-Chain

Scale

The Metric: Cost Per On-Chain Action (CPOA)

Forget Cost Per Click. The new core KPI is Cost Per On-Chain Action—a fully accountable metric that ties spend directly to protocol utility.

Action-defined: Cost per swap, mint, stake, or vote.
Funnel optimization: A/B test sponsorship rules to lower CPOA.
VC-friendly: Demonstrates capital efficiency and real user growth, not vanity metrics.

CPOA

New KPI

A/B Test

Optimize

The Endgame: From Acquisition to Retention

Sponsored transactions are the top of the funnel. The real moat is using gas credits as a retention tool. Think '10th transaction free' or 'gas rebates for stakers'.

Locks in user loyalty with programmable incentives.
Turns users into stakeholders by subsidizing governance participation.
Creates a sustainable flywheel where protocol revenue funds future growth.

Loyalty

Driver

Flywheel

Effect

deep-dive

THE COST OF ACQUISITION

Deep Dive: The Unit Economics of a Sponsored TX

Sponsored transactions transform user acquisition from a marketing expense into a direct, measurable, and programmable on-chain investment.

Sponsored transactions invert the acquisition model. Traditional Web2 user acquisition is a marketing expense with opaque ROI. Sponsored transactions are a direct, on-chain capital deployment where the cost-per-user is the gas fee.

The unit cost is the gas price. Each successful sponsored transaction is a verifiable, on-chain proof of acquisition. Protocols like Pimlico and Biconomy provide the infrastructure to abstract this cost from the end-user.

This creates a programmable acquisition funnel. DApps can set rules, like sponsoring only first-time mints or trades above a threshold. This is a more efficient capital allocation than blanket marketing spends.

Evidence: Protocols using ERC-4337 account abstraction and paymasters see a 20-40% increase in successful user onboarding by removing the native token barrier.

USER ACQUISITION COST BREAKDOWN

CAC Analysis: Traditional Incentives vs. Gas Sponsorship

Quantitative comparison of user acquisition cost components and efficiency between traditional airdrop/rebate models and sponsored transaction (paymaster) models.

CAC Component / Metric	Traditional Airdrop & Rebates	Gas Sponsorship (Paymaster)	Hybrid Model (e.g., UniswapX)
Effective Cost per Onchain User	$50 - $500+	$0.10 - $5.00	$5 - $50
Sybil Attack Surface	Extremely High	Controlled (Tx-gated)	Moderate (Intent-gated)
Time-to-Value for User	Days to Weeks (claim delay)	< 1 second (sponsored at execution)	Minutes (solver settlement)
Primary CAC Driver	Token Liquidity & Speculators	Actual Gas Fees Paid	Solver Competition & MEV
Retention Mechanism	Weak (one-time drop)	Strong (session keys, subscriptions)	Moderate (fee abstraction)
Requires Native Token
Protocols Exemplifying Model	Uniswap (UNI), Arbitrum (ARB)	Biconomy, Pimlico, Candide	UniswapX, Across, CowSwap
CAC Payback Period	12 months (speculative)	< 1 month (fee-based revenue)	1-6 months (volume-based)

counter-argument

THE UNIT ECONOMICS

Counterpoint: Isn't This Just Subsidizing Inefficiency?

Sponsored transactions are not a subsidy but a fundamental redefinition of user acquisition cost and protocol revenue.

Traditional CAC is dead. Paying for a user's gas converts a variable, unpredictable marketing expense into a fixed, auditable cost of sale. This is the same model as AWS's free tier or Stripe's first $1M in processing.

The subsidy funds efficiency. The cost is not for the transaction itself, but for acquiring the user's future, non-sponsored activity. This is a lifetime value arbitrage that protocols like Pimlico and Biconomy monetize.

Protocols become profit centers. Instead of being a pure cost, the gas sponsorship flow becomes a revenue stream for wallets and dApps. This creates a positive-sum ecosystem where user growth directly funds infrastructure.

Evidence: Base's Onchain Summer spent ~$2M on gas fees, driving over 3M new wallets and establishing a dominant onchain brand. The CAC per engaged user was under $1.

protocol-spotlight

FROM COST CENTER TO GROWTH ENGINE

Protocol Spotlight: Who's Executing This Playbook?

Sponsored transactions shift user acquisition from marketing budgets to protocol treasury, turning gas fees into a direct growth lever.

The Problem: The $100 Onboarding Tax

New users face a hostile UX: buy ETH, bridge it, pay gas before even using your dApp. This ~$50-100 upfront cost kills conversion. Traditional web2-style ad spend can't solve this native crypto barrier.

~90%

Drop-off Rate

$100+

Hidden Cost

The Solution: Paymasters as a Growth Hack

Protocols like Base and Pimlico abstract gas via ERC-4337 Paymasters. The dApp or a sponsor pays, enabling gasless transactions. This turns user acquisition cost into a measurable, on-chain growth metric with direct ROI.

Key Benefit 1: Frictionless onboarding for non-crypto-native users.
Key Benefit 2: Precise LTV/CAC tracking via on-chain sponsor analytics.

0 ETH

User Pays

10x+

Sign-up Lift

The Arbiter: Intent-Based Architectures

Systems like UniswapX, CowSwap, and Across use intents and solvers. Users sign what they want, not how to do it. Solvers compete to fulfill the intent optimally, often subsidizing gas to win the bundle. This creates a market where user acquisition is baked into execution economics.

Key Benefit 1: Users get best execution, often for free.
Key Benefit 2: Solvers absorb cost as customer acquisition spend.

~500ms

Solver Competition

Net Positive

User Price

The Enabler: Modular Stack & Account Abstraction

Infrastructure from Stackup, Biconomy, and Candide provides the rails. By separating validation and execution layers, they allow sponsors to pay in any token and offer session keys for batch interactions. This modularity lets any dApp become a gas sponsor.

Key Benefit 1: Flexible sponsorship (stablecoins, ERC-20s).
Key Benefit 2: Session-based UX for compound interactions.

Any Token

Pay With

1 Click

Multi-Tx Sessions

The Metric: On-Chain LTV > Ad CAC

Sponsored TXs create a transparent funnel. You can track a user from first gasless tx to lifetime protocol revenue. This makes on-chain Lifetime Value (LTV) a primary metric, directly comparable to the sponsor's cost. It's a fundamental shift from opaque ad analytics to verifiable on-chain unit economics.

On-Chain

Analytics

Clear ROI

Per User

The Risk: Centralization & Sybil Attacks

Who controls the purse? If a few entities (e.g., LayerZero, EigenLayer) dominate sponsorship, they control user flow. Open markets like Ethereum's PBS are crucial. Protocols must design incentive models that resist sybil attacks on free transactions without creating walled gardens.

Key Benefit 1: Decentralized solver/validator sets prevent capture.
Key Benefit 2: Cryptographic proofs ensure sponsor funds are used correctly.

Critical

Decentralization

Zero-Trust

Verification

risk-analysis

REFRAMING ACQUISITION COSTS

Risk Analysis: The Pitfalls of Paymaster Economics

Sponsored transactions shift the economic burden from users to applications, creating a new battleground for user acquisition with hidden systemic risks.

The Subsidy Trap: From CAC to Variable Burn

Traditional CAC is a fixed marketing expense. Paymaster subsidies are a variable, on-chain operational cost that scales with usage. This creates unpredictable P&L pressure and can lead to unsustainable winner-takes-most subsidy wars, as seen in early DeFi liquidity mining.

Risk: Subsidy costs can outpace user LTV, turning growth into a value-destructive loop.
Data Point: Protocols like Pimlico and Biconomy manage subsidy budgets in the millions of USD per month for top clients.

Variable

Cost Model

LTV/CAC

Ratio At Risk

Centralization Vectors in Decentralized Systems

To manage subsidy risk and ensure reliability, applications rely on a handful of professional paymaster operators like Ethereum's ERC-4337 Bundlers. This creates critical centralization points.

Risk: Censorship and transaction ordering power consolidates with a few entities controlling the user experience gate.
Example: A dominant paymaster could blacklist dApps or prioritize its own affiliated transactions, undermining network neutrality.

Oligopoly

Operator Risk

Single Point

Of Failure

The MEV & Security Liability Shift

Absorbing gas fees makes the paymaster the target for Maximal Extractable Value (MEV) attacks and griefing. A malicious actor can spam transactions to drain a paymaster's wallet.

Risk: Applications must now secure their gas budget against sophisticated DoS and economic attacks, a complex operational burden.
Mitigation: Services like Alchemy's Gas Manager implement rate-limiting and fraud detection, adding overhead and cost.

New Attack

Surface

Operational

Overhead

Wallet Lock-in and Interoperability Fragmentation

Paymaster logic is often tied to specific smart account SDKs (e.g., ZeroDev, Safe{Core}). This creates vendor lock-in, fragmenting user identity and transaction portability across chains and dApps.

Risk: Users cannot seamlessly move their "sponsored" identity, reducing composability and increasing switching costs.
Contrast: Intent-based architectures like UniswapX and CowSwap abstract this away, preserving user sovereignty.

Reduced

Composability

Vendor

Lock-In

Regulatory Gray Zone: Who is the Transactor?

When a dApp pays for a user's transaction, it blurs the lines of financial responsibility. Regulators may view the paymaster as the entity of record, creating KYC/AML liabilities.

Risk: This could force centralized compliance onto decentralized applications, negating core crypto values.
Precedent: Tornado Cash sanctions demonstrate regulatory focus on infrastructure layers that facilitate transactions.

KYC/AML

Liability

Entity of Record

Uncertainty

The Long-Term Equilibrium: Who Pays?

The endgame is not free transactions. Costs will be internalized via higher product fees, token inflation, or data monetization. The question is which model is most sustainable and transparent.

Analysis: Successful models will align subsidy costs with direct revenue streams (e.g., taking a spread on swaps).
Future: Protocols like Across with embedded relayer fees show a path where the user 'pays' without holding gas tokens.

Cost

Internalization

Sustainable

Models Win

future-outlook

THE ACQUISITION STACK

Future Outlook: The Bundled Acquisition Suite

Sponsored transactions are evolving from a user convenience into a core component of a protocol's growth engine, fundamentally altering the calculus of user acquisition cost.

Sponsored transactions invert acquisition cost. Traditional web2-style marketing burns cash for top-of-funnel awareness. Sponsored gas, bundled with airdrops or quests, directly subsidizes the on-chain activation cost, converting marketing spend into guaranteed, measurable on-chain actions.

The suite bundles gas, liquidity, and identity. A complete acquisition stack isn't just paying for a swap. It's a package: ERC-4337 Account Abstraction for sponsored gas, a UniswapX-like solver for cross-chain liquidity, and an on-chain credential like EAS Attestations to prove the user completed the desired action, creating a closed-loop growth system.

This makes L2s and dApps direct competitors. The battle shifts from pure TVL to developer acquisition budgets. A protocol like Aevo or Blast will compete by offering the deepest subsidies for specific actions, turning their treasury into a user acquisition war chest with perfect on-chain attribution.

Evidence: Protocols like Pimlico and Biconomy already manage sponsored transaction infrastructure for dApps, demonstrating the demand for this model. The next step is bundling these services into a single SDK that handles gas, cross-chain intent execution via Across or LayerZero, and verifiable completion.

takeaways

TL;DR: Key Takeaways for Builders

Sponsored transactions shift the cost of user onboarding from a marketing expense to a protocol-level infrastructure investment, fundamentally altering UA economics.

The Problem: The $100+ User Onboarding Funnel

Acquiring a non-crypto-native user requires paying for their gas, airdrops, and bridging fees. This upfront cost kills unit economics before the first real transaction.\n- CAC includes gas for wallet creation, token approval, and first swap.\n- Friction of managing native gas tokens (ETH, MATIC) causes >60% drop-off.\n- Result: DApps compete on subsidies, not product.

$100+

Est. CAC

>60%

Drop-off

The Solution: Protocol-Pays Model (See: Biconomy, Gelato)

The dApp or a third-party paymaster sponsors gas fees in any token (including stablecoins), abstracting blockchain complexity entirely.\n- User Pays Zero: Interacts with USDC, not ETH. Removes the biggest cognitive barrier.\n- DApp Controls Spend: Set budgets, whitelist operations, and track LTV vs. CAC in real-time.\n- Scalable: Paymasters batch transactions, reducing effective gas cost by ~20-40%.

User Gas

~30%

Gas Savings

The New Metric: Cost Per Onchain Action (CPOA)

Forget CAC. The new benchmark is the marginal cost of a user's first valuable onchain action (swap, mint, stake). This aligns incentives with actual protocol usage.\n- Measure: Gas cost of a user's first swap sponsored by your dApp.\n- Optimize: Use session keys via ERC-4337 Account Abstraction to bundle multiple actions into one sponsored session.\n- Result: Acquire users for the cost of a coffee, not a marketing campaign.

<$1

Target CPOA

ERC-4337

Enabler

The Strategic Moat: Embedded Sponsorship

The winning model isn't just sponsoring gas; it's embedding sponsored transactions into the product's core flow, creating seamless onboarding loops.\n- Example: A game mints a free NFT for a user, sponsoring the gas, which becomes their in-game asset.\n- Integration: Use Safe{Wallet} smart accounts with Pimlico paymaster infrastructure for programmable sponsorship rules.\n- Outcome: User acquisition becomes a feature of your protocol's infrastructure.

Safe{Wallet}

Smart Accounts

Pimlico

Paymaster

Why Sponsored Transactions Redefine 'User Acquisition Cost'

Introduction: The Flawed Economics of Onboarding

The New Marketing Funnel: From Cost Center to Growth Engine

The Problem: The $100 Onboarding Tax

The Solution: Pay-for-Performance Gas Sponsorship

The Engine: Programmable Subsidy Rules

The Network Effect: Sponsored Transactions as a Service

The Metric: Cost Per On-Chain Action (CPOA)

The Endgame: From Acquisition to Retention

Deep Dive: The Unit Economics of a Sponsored TX

CAC Analysis: Traditional Incentives vs. Gas Sponsorship

Counterpoint: Isn't This Just Subsidizing Inefficiency?

Protocol Spotlight: Who's Executing This Playbook?

The Problem: The $100 Onboarding Tax

The Solution: Paymasters as a Growth Hack

The Arbiter: Intent-Based Architectures

The Enabler: Modular Stack & Account Abstraction

The Metric: On-Chain LTV > Ad CAC

The Risk: Centralization & Sybil Attacks

Risk Analysis: The Pitfalls of Paymaster Economics

The Subsidy Trap: From CAC to Variable Burn

Centralization Vectors in Decentralized Systems

The MEV & Security Liability Shift

Wallet Lock-in and Interoperability Fragmentation

Regulatory Gray Zone: Who is the Transactor?

The Long-Term Equilibrium: Who Pays?

Future Outlook: The Bundled Acquisition Suite

TL;DR: Key Takeaways for Builders

The Problem: The $100+ User Onboarding Funnel

The Solution: Protocol-Pays Model (See: Biconomy, Gelato)

The New Metric: Cost Per Onchain Action (CPOA)

The Strategic Moat: Embedded Sponsorship

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Why Sponsored Transactions Redefine 'User Acquisition Cost'

Introduction: The Flawed Economics of Onboarding

The New Marketing Funnel: From Cost Center to Growth Engine

The Problem: The $100 Onboarding Tax

The Solution: Pay-for-Performance Gas Sponsorship

The Engine: Programmable Subsidy Rules

The Network Effect: Sponsored Transactions as a Service

The Metric: Cost Per On-Chain Action (CPOA)

The Endgame: From Acquisition to Retention

Deep Dive: The Unit Economics of a Sponsored TX

CAC Analysis: Traditional Incentives vs. Gas Sponsorship

Counterpoint: Isn't This Just Subsidizing Inefficiency?

Protocol Spotlight: Who's Executing This Playbook?

The Problem: The $100 Onboarding Tax

The Solution: Paymasters as a Growth Hack

The Arbiter: Intent-Based Architectures

The Enabler: Modular Stack & Account Abstraction

The Metric: On-Chain LTV > Ad CAC

The Risk: Centralization & Sybil Attacks

Risk Analysis: The Pitfalls of Paymaster Economics

The Subsidy Trap: From CAC to Variable Burn

Centralization Vectors in Decentralized Systems

The MEV & Security Liability Shift

Wallet Lock-in and Interoperability Fragmentation

Regulatory Gray Zone: Who is the Transactor?

The Long-Term Equilibrium: Who Pays?

Future Outlook: The Bundled Acquisition Suite

TL;DR: Key Takeaways for Builders

The Problem: The $100+ User Onboarding Funnel

The Solution: Protocol-Pays Model (See: Biconomy, Gelato)

The New Metric: Cost Per Onchain Action (CPOA)

The Strategic Moat: Embedded Sponsorship

Get In Touch today.

Get In Touch
today.