Stop Swabbing.
Start Sensing
For decades, explosive trace detection has relied on physical contact, surface swabbing, and point-by-point inspection.
While effective in controlled environments, these methods often require close physical proximity to the suspected area, limit operational coverage, and can delay critical decision-making.
Tracense introduces a different approach.
Instead of searching for residue on surfaces, our technology actively samples airborne particles naturally released into the environment from explosive materials and hazardous compounds.
How the technology works?
At the core of Tracense technology is a proprietary electrochemical sensing architecture designed to capture, analyze, and detect airborne explosive particles in real time.
Detecting what the eye cannot see.
Explosive materials continuously release trace molecules into the surrounding environment through natural airborne dispersion.
Tracense systems utilize a patented airflow sampling architecture optimized to actively collect ultra-low-concentration of explosive molecules under real operational conditions.
Unlike surface swabbing methods and other point detection techniques, Tracense creates a controlled airflow environment that increases sampling efficiency while enabling non-contact screening.
Operational Advantages
- Non-contact detection
- No physical swabbing required
- Stand-off screening capability
- Rapid high-volume particle acquisition
Engineering chemistry to recognize threats.
Collected airborne explosive traces interact with a proprietary sensing layer engineered to selectively attract explosive-related molecules while minimizing environmental interference.
Acting as a molecular bridge between chemistry and electronics, the sensor concentrates target molecules directly on the electrode, enhancing sensitivity and detection reliability.
Operational Advantages
- Enhanced detection Sensitivity
- Reduced Environmental Interference
- Reliable threat confirmation
Turning chemistry into operational intelligence.
Once explosive traces are captured on the sensing interface, they interact with a proprietary electrolyte solution within a controlled electrochemical environment.
Tracense measures the resulting electrochemical reactions and converts them into stable electronic signals. These signals are analyzed using proprietary algorithms to detect and confirm explosive-related signatures, delivering actionable operational intelligence in seconds.
Operational Advantages
- Rapid Threat ConfirmationElectrochemical fingerprint identification
- High sensitivity detection
- Laboratory-grade analytics in the field
- Actionable Operational Intelligence
Why it matters?
A New Standard In Trace Detection
One Core Technology. Multiple Platforms.
BEN (TS500)
The BEN system is a lightweight stand-off explosive trace detection platform designed for integration with UAVs. It enables drones to enter and assess entire buildings and complex environments for explosive threats while personnel remain at a safe distance, providing early situational awareness and supporting safer operations in high-risk areas
BEN (TS500)
Stand-Off Trace Detection System
GAL (TS300)
The GAL System is a handheld, high-sensitivity explosive trace detection system designed for close-range investigation of suspicious objects and environments. GAL enables operators to identify concealed explosive materials with trace-level sensitivity while supporting rapid threat confirmation and precise operator-controlled inspections.
GAL (TS300)
High-Sensitivity Portable Trace Detection System
TS600
The TS600 system combines stand-off detection with trace-level sensitivity in a robotic platform designed for operation in complex and high-risk environments. By performing onboard explosive trace analysis directly on the robot, the system enables remote inspection of subterranean spaces, tunnels, and large structures while supporting safer and more efficient operations.
TS600
Robotic Trace Detection & Onboard Analysis