IonSniff

Lab tested

Lab-Tested Detection, Responsible Claims

IonSniff is developed through controlled lab testing with representative lithium battery electrolyte vapor conditions. Its detection approach is tuned to recognize vapor indicators associated with electrolyte leakage, venting, or battery damage.

What we can say today

Built on controlled testing.

  • IonSniff is developed using controlled lab testing.
  • Detection logic is informed by electrolyte vapor response data.
  • The product is designed to detect vapor indicators associated with lithium battery electrolyte leakage.
  • Internal testing shows fast response under tested conditions.
  • Validation continues as product applications expand.

What we are still documenting

Additional data will be published as validation progresses.

  • Public detection-limit specifications
  • Solvent-specific response curves
  • Full environmental range testing
  • Long-term stability data
  • Interference testing against common household VOCs
  • Third-party certification or standards-based validation, if pursued

Test overview

Structured validation with clear boundaries.

Detailed public specifications will be added as validation progresses.
Validation focusCurrent status
Controlled electrolyte vapor response data
Available by request
Fast-response behavior under tested conditions
Available by request
Representative vapor-condition tuning
Available by request
Testing-informed detection logic
Available by request
Ongoing interference screening
Available by request
Environmental validation in progress
Available by request
Long-duration stability documentation in progress
Available by request
Commercial validation documentation
Available by request

Representative compounds

Electrolyte chemistry varies by battery design.

Lithium battery electrolytes often include organic carbonate solvents. Testing uses representative compounds for development context, while exact formulations vary by chemistry, manufacturer, cell format, and additives.

Dimethyl carbonate, DMC

Used as representative testing context; not a complete list of possible electrolyte components.

Diethyl carbonate, DEC

Used as representative testing context; not a complete list of possible electrolyte components.

Ethyl methyl carbonate, EMC

Used as representative testing context; not a complete list of possible electrolyte components.

Ethylene carbonate, EC

Used as representative testing context; not a complete list of possible electrolyte components.

What we measure

Performance factors that matter in real battery environments.

Electrolyte vapor response patterns

Documentation will expand as testing covers more conditions, environments, and applications.

Fast detection under tested conditions

Documentation will expand as testing covers more conditions, environments, and applications.

Recovery behavior under tested conditions

Documentation will expand as testing covers more conditions, environments, and applications.

Interference screening as validation expands

Documentation will expand as testing covers more conditions, environments, and applications.

Baseline behavior over time

Documentation will expand as testing covers more conditions, environments, and applications.

Environmental performance documentation

Documentation will expand as testing covers more conditions, environments, and applications.

Downloadable test summary

Request the IonSniff Lab Testing Summary

For distributors, insurers, safety officers, technical buyers, and evaluation partners. Commercial validation background is available by request.

Validation documentation

Testing background with responsible performance language.

IonSniff validation background

Testing sourceIonSniff controlled lab testing and internal validation
Testing periodOngoing validation program
Test approachControlled testing with representative electrolyte vapor conditions
Tested conditionsOrganic carbonate solvent vapor conditions used for detection tuning
Detection-limit specificationsAdditional performance data will be published as validation progresses
Response-time documentationDesigned for fast detection under tested conditions
Commercial validationBackground documentation available by request

Credibility disclaimer

IonSniff is an early-warning sensor designed to detect certain airborne indicators associated with lithium battery electrolyte leakage. It is not a smoke detector, carbon monoxide detector, fire alarm, or guarantee against battery fire. Always follow battery manufacturer instructions, local fire safety guidance, and emergency procedures.

Detection speed and performance depend on vapor concentration, airflow, distance from the battery, enclosure conditions, battery chemistry, temperature, humidity, and interfering vapors. IonSniff is an early-warning layer and is not a guarantee against battery fire.