Innovative characterization methods for assessing display reliability under harsh conditions; Innovative materials and designs for displays in extreme temperatures and radiation exposure; Strategies for maintaining performance in electric and magnetic field environments as well as in strong cavity; Development of OLED, QLED, and oxide TFT technologies for extreme environmental applications; Super high resolution displays for physical AI; Advanced environmental testing, including thermal cycling, UV resistance, and radiation exposure; Sustainability and lifespan optimization for displays in extreme environments; Breakthroughs in materials, processes, and system designs for enhanced environmental adaptability.

Flexible, foldable, rollable, and stretchable display technologies, including deformable display materials (substrates, conductors, semiconductors, barrier layers); emerging devices including various types of sensors, novel processes and manufacturing methods (printing, novel deposition/patterning techniques, transfer, laminating/delaminating); electro-optical effects; driving techniques and designs for deformable electronic devices including light-emitting devices and thin-film transistors; and device performance and reliability for all deformable display technologies.

Materials, optical components, and devices (Micro-LED, Micro-OLED, LCD, Quantum dot, and other emerging display types) for eXtended Reality (XR) devices; Pixel structures, manufacturing processes, and system integration suited to near-eye displays and compact projection systems; Low-power and high-dynamic range driving techniques for high-resolution and high-speed XR displays; Sensing, processing, and interaction technologies crucial for immersive XR experiences; Image quality, content generation/processing, and low-latency rendering pipelines for comfortable and realistic XR environments; Human factors, psychophysics, and visual experiences for next-generation XR device design.

Micro & nano-crystal silicon, amorphous and crystalline oxide, oxynitride, metal halide, organic, and carbon nanomaterials based TFTs; quantum dot, perovskite, chalcogenides, 2D layered materials, and other emerging semiconducting materials and gate dielectric materials for TFTs; novel low temperature fabrication and annealing technology for TFTs; solution processed & printed TFTs; new structures/processes and novel application of TFTs; active-matrix devices for LCD, OLED, LED, QLED, and micro displays; novel and high performance active-matrix devices and system-on-panel (SOP); backplane technologies for emerging displays; emerging application of TFTs.

All aspects of AI & computational technology for display design/process/manufacturing/measurement; visual inspection; scheduling, predictive maintenance, anomaly detection, classification, human vision perception; numerical algorithm; OLED device simulation; quantum computing algorithm; Prediction of material/electrical/optical/mechanical properties of display; Enhancement of image quality; quality prediction of XR and computational displays.

Investigating display technologies that integrate human visual perception with physical properties, encompassing general displays, stereoscopic, autostereoscopic, AR/VR form factors, automotive, and transparent display devices. This includes optimizing display capabilities to create immersive experiences, leveraging the limitations of the visual system for efficient data processing and transmission, and developing innovative user interaction methods. Furthermore, we also develop and apply display metrology techniques to characterize and evaluate display performance, measuring optical, electrical, and perceptual parameters such as brightness, color accuracy, contrast ratio, and viewing angle, ensuring optimal display performance.

Advanced technologies for AR/VR/MR and 3D display; near-to-eye display and head-up display; stereoscopic, light-field, volumetric, and holographic displays; optics for AR/VR/MR and 3D display; image/scene capture, conversion, and machine learning for content generation; spatial computing; image formats, compressions, and standards; user interaction and low-latency techniques for immersive experience; measurement and performance evaluation; novel applications.

Interactive technologies enabling real-time and bidirectional interaction between users and display-enabled systems, including touch, tactile, gesture, and multimodal interaction; Soft, flexible, and deformable materials and devices, including organic, polymer, and hybrid systems, for interactive interfaces such as electronic skins and conformable tactile platforms; Sensor-integrated interactive displays combining sensing, signal processing, and feedback for intuitive human-machine interaction; Interactive systems for emerging applications including wearable electronics, robotics, automotive interfaces, and immersive environments; Emerging materials, device architectures, and manufacturing innovations for scalable and reliable interactive technologies.

Advanced algorithms for display driving technology such as AI; display system and peripheral designs; circuits and algorithms for microdisplays; touch interface electronics; TFT circuits (driving methods and circuits for display devices and systems); driver ICs; image signal processors; display interface technologies; driving electronics of touch panels; image quality enhancement methodologies and systems; neuromorphic systems; all novel integrations of displays into specialized devices as well as system-level aspects of electronic displays.

Thin and thick film deposition, lithography, etching, cleaning, printing, coating, and various plasma technologies; process & equipment technologies for new and emerging displays including flexible & wearable applications; display manufacturing issues related to advancements such as performance improvement, cost reduction, high throughput, and flexibility; material issues in display processes, including synthesis and deposition of emerging materials; process & equipment technologies for display circuits and interfaces; process & equipment for printed electronics including display and sensor fabrication; applications in display manufacturing processes.

Novel research on metrology and inspection technology for display industry; process metrology for OLEDoS, LEDoS, QD-display, OLED and LCD devices manufacturing; high resolution optical imaging system; artificial intelligence(AI) technique for MI industry; deep learning algorithm for inspection; generative AI technique with digital twin; electrical measurement technology for TFT; advanced MI technique for thickness and critical dimension; 3D&2D profile measurement system; oxide material property measurement technique; new visual inspection technology.

Emerging display materials and device architectures such as metamaterials, metasurfaces, metalens, 2-dimensional (2D) materials, perovskite materials, quantum dots and other related materials; Emerging display materials for XR display and devices (virtual reality, augmented reality, extended reality, hologram, 3D display, etc); High-refractive-index, low-loss materials and active materials for display; Structural color filters for display; Transparent conducting electrode materials for display; Emerging display materials for automotive and aviation display applications, and interactive display applications.

Novel functional materials/optics/architectures for future displays including; High-image-quality, high-resolution, and high-dynamic-range LCD; Automotive displays/Optics; QD-enhanced displays; LC materials for EL/PL components; Up/down-conversion photonics materials; AR-VR and 3D Optics/Materials; Geometric phase holograms; Diffraction/Guide optics/Materials; Polarization Modulators; Optical Activity/Chirality; Smart windows; LC photonics/Lens; GHz/THz modulators; Nano-structured LC components/devices; Optical films/retarders/fabrics; Soft sensing materials; Soft lithography; Molecular design/synthesis of adaptive materials; Stimuli-responsive materials; LC elastomers; Biomedical LC materials and applications; Ecofriendly display materials; Green display components; Low power/Light conversion displays.

Advances in LED-based displays; micro-LED epitaxy, device physics, and pixel fabrication (including size-effect mitigation, sidewall passivation, light extraction, thermal management, and reliability); backplane and heterogeneous integration (CMOS/LTPS/oxide TFT, hybrid bonding and wafer/panel-level packaging); manufacturing technologies for mass transfer, bonding, repair, yield and cost modeling, and in-line metrology/AI inspection; phosphor, quantum dot, and perovskite materials and patterning processes for color conversion and optical cross-talk control; micro-LED display panels with active/passive driving, compensation algorithms, and system-level optics; miniaturization for flexible/stretchable and transparent displays; and application-specific micro-LED modules for AR/VR microdisplays, bio-healthcare, and automotive systems.

Design and characterization of OLED materials; emerging OLED materials, including chiral emitters, organic radicals, and more; exciton dynamics and energy transfer in OLED materials; device physics for high-performance OLEDs; novel emission mechanisms of OLEDs; enhancement of out-coupling efficiency; improvement of optical properties of OLEDs; device stability and degradation analysis; organic and inorganic interfaces in OLEDs; OLED electrodes; OLED manufacturing; OLED patterning process; solution-processed OLEDs; white and tandem OLEDs for displays; encapsulation materials and processes; environmental reliability; novel applications.

QD fundamentals, including synthesis and characterization of Semiconductor nanocrystal QDs and perovskite, optical and electrical properties of QDs; QD display technologies, including perovskite and QD-based color conversion for LCDs, micro-LEDs, QLEDs; QD-based energy conversion devices and systems; QD photodetectors; high-resolution and fine patterning of QDs; emerging QDs, including perovskite QDs, graphene QDs and more.