Advanced materials form the foundation of all modern technology. Many of the software and services we use everyday depend on ever more powerful hardware to run. Advancements in computing power, data storage, energy efficiency, and batteries are all enabled by innovations in advanced materials and fine chemicals.
We Develop Production-Ready
Advanced Materials for Electronics
Electronics are Enabled by Advanced Materials
Enabling New Areas for Innovation
Transparent Displays
We are developing solutions to enhance transparency, reduce power consumption, and improve image quality of transparent displays.
Learn MoreUnder Panel Sensors
Our advanced materials are enabling the future of display technology allowing complex sensors to be directly integrated under the display panel.
Learn MoreUnder Display Camera
Our advanced materials are enabling the future of transparent displays allowing under display cameras that will eliminate display notches.
Learn MoreAdvanced Materials by Design
Integrated
Materials
Development
At OTI Lumionics we are developing advanced materials—by design—using quantum simulations, machine learning and real-world testing in pilot production. We are currently focused on key enabling materials for OLED displays that will be used in next-generation consumer electronics and automotive. Our advanced electrode materials, and associated manufacturing technology, are being used to build transparent displays and lighting.
We work closely with our partners and customers to design new materials that are mass-production ready. Using our computational Materials Discovery Platform, we are able to rapidly iterate new materials, allowing fast turn around time to meet our customers’ needs.
Our materials are vigorously tested to our customers’ exacting specifications, using our in-house pilot production facility for thin-film electronics. Scale-up and mass production supply of our materials is provided by our network of Tier 1 chemical and materials partners.
Between our in-house facilities, and industrial and academic partners, we offer the following capabilities:
- Computational materials design
- Materials synthesis + scale-up
- Testing in pilot production testing
- Application engineering + prototyping
Computational Chemistry
High Performance Computing (HPC) and Machine Learning (AI) remove the guesswork.
- Screen 1,000x more candidates
- Precision property design
- Lower development cost
- Faster development cycle
Synthesis + Scale-up
Partnering with established chemical suppliers for rapid synthetic scale-up from gram to ton.
- Faster time to market
- Lower scale-up cost
- Qualified supply chain
- Quality guaranteed
Production Testing
In-house pilot production testing de-risks material performance in mass production.
- Replicates customer’s facility
- Validates process impact
- Validates equipment impact
- Seamless transfer to production
Quantum Computing for Computational Chemistry
Advanced Materials for OLED Displays
Our materials reduce power consumption, enhance transparency and enable under display sensors/camera.
CPM™ Patterning – New Patterning Process Based on Self-Assembly
Our advanced materials for self-assembly patterning enable a new area for innovation in OLED display
- Reduce display power consumption
- Increase display transparency (AR)
- Integrate sensors into the display
- Increase display resolution
Unique OLED Expertise
Our team has decades of experience in the OLED industry including materials, application, and process development.
OLED Specialty Chemicals
Our team includes technical and product experts from the OLED materials, specialty chemical, and pharmaceutical industries.
OLED Application Engineering
Our team includes veterans from the display manufacturing and consumer electronic industries specializing in OLED applications.
OLED Process Development
Our team includes seasoned front-line process engineers from the display and semiconductor industries specializing in yield tune-up.