UniLight

Elevator Pitch: Imagine a world where the power and precision of lasers are not limited by the materials they are built on. UniLight revolutionizes laser technology with a platform-agnostic approach, bringing unprecedented versatility and efficiency to communication, sensing, and quantum computing. Our unique laser integration technique paves the way for compact, powerful, and universally compatible devices, meeting tomorrow’s demands today.

Concept

Platform-agnostic integrated laser systems for diverse applications

Objective

To provide compact, efficient, and versatile integrated laser solutions across multiple platforms for communication, sensing, and quantum applications.

Solution

Using a unique two-step micro-transfer printing method to create integrated lasers that work seamlessly across various material platforms, offering identical performance regardless of the base material.

Revenue Model

Direct sales to manufacturers in telecommunications, sensing technologies, and quantum computing. Licensing technology to research institutions and tech companies for specialized applications.

Target Market

Telecommunications providers, manufacturers of sensing devices, quantum computing companies, and research institutions in photonics.

Expansion Plan

Initially focus on telecommunications and sensing markets, then expand into quantum computing and custom solutions for research and development in photonics.

Potential Challenges

Technological hurdles in scaling up production, ensuring consistency across different platforms, and maintaining performance standards.

Customer Problem

Current integrated laser systems are limited by their base material, affecting device compactness and efficiency and increasing costs for diverse applications.

Regulatory and Ethical Issues

Compliance with international standards for laser safety and performance. Addressing environmental impacts of manufacturing processes.

Disruptiveness

Revolutionizing the integrated laser market by offering a versatile, cost-effective solution that is not tied to any specific material platform, enabling broader applications and innovations.