Engineered Light Within the Material

At the core of Lucentis is a material-based lighting system that embeds illumination directly into construction elements. Rather than adding external fixtures, the technology transforms surfaces themselves into light-emitting components.

Photoluminescent Material System

Lucentis uses a combination of photoluminescent aggregates and high-performance pigment powders, engineered to absorb and retain energy from natural daylight.

  • Blended into structural mixes (e.g. concrete)
  • Incorporated into surface layers
  • Applied through specialist coating systems

This creates a durable, light-responsive layer that becomes part of the infrastructure itself — not an added feature.

Integrated by Design

The system is designed to work across multiple construction methods:

  • Precast concrete elements
  • In-situ poured surfaces
  • Retrofit surface coatings

This flexibility allows Lucentis to be specified both in new developments and existing environments, without redesigning surrounding infrastructure.

Photometric Behaviour

Lucentis does not produce constant-output lighting. Instead, it follows a natural emission curve:

  • Energy is stored during daylight exposure
  • Light is released gradually after dark
  • Output reduces over time in a controlled decay

Typical performance enables visible afterglow for 8–12 hours, depending on environmental conditions and material configuration.

Independent from Electrical Systems

The technology operates entirely without conventional lighting infrastructure:

  • No connection to grid power
  • No cabling or trenching
  • No sensors, drivers, or control units

All functionality is inherent to the material composition, reducing both installation complexity and long-term maintenance requirements.

Performance Factors

System output is influenced by real-world conditions, including:

  • Daylight availability and exposure
  • Surface wear and environmental stress
  • Temperature and moisture
  • Material thickness and composition

This ensures performance remains predictable within defined application contexts while adapting naturally to its surroundings.