Accelerating OLED innovation with multi-scale, multi-physics simulations
OLED technology is widely used in mobile devices, AR/VR systems, and automotive displays, with its flexibility enabling foldable devices and enhanced user interactions. However, advancing OLEDs requires overcoming challenges such as improving efficiency, extending lifetime, ensuring color stability, and optimizing scalable manufacturing. Since device performance depends on both material properties and fabrication methods, a deeper understanding of OLED materials and device architectures is essential for innovation.
Traditional trial-and-error approaches to materials discovery are costly and time-consuming. To address this, we present the synergistic application of Ansys and Schrödinger predictive technologies to accelerate OLED development through a multi-scale, multi-physics simulation approach. This framework integrates:
- Molecular modeling to predict materials properties at atomistic scale
- Nanoscale simulations to examine photonic responses and light-matter interactions
- Macroscale modeling to assess human perception of displays in real-world conditions
By combining Schrödinger’s expertise in molecular simulations with Ansys’s advanced device modeling, this approach enables faster, cost-effective OLED innovation. Join us to explore how integrated digital workflows drive the design of next-generation, high-performance OLEDs.
Our Speakers
Hadi Abroshan
Principal Scientist I, Schrödinger
Hadi Abroshan is the Product Manager for Organic Electronics at Schrödinger. He holds a Ph.D. from Carnegie Mellon University and has conducted research at Stanford University and Georgia Tech. Hadi specializes in multiscale simulations, leading projects to design cost-effective multifunctional materials for optoelectronics. His expertise lies in developing computational strategies that bridge atomistic structures to multilayered device scales, using a blend of physics-based methodologies and machine learning techniques. His work has led to the discovery of novel, environmentally friendly materials and processes with superior efficiencies.
Thibault Leportier
Senior R&D Engineer, Ansys
Thibault Leportier is an optical scientist with expertise in geometrical and Fourier optics, lasers, and metrology. Holding a Ph.D. in 3D display technologies and digital holography, Thibault has worked extensively on waveguide design for smart glasses and eye-tracking applications. Currently, his focus is on developing innovative solutions to bridge nanoscale simulations with macroscale optical systems, including advancements in metalens and grating models.