This special topic covers technologies, interactions and applications used in digital signage for informational, educational, and entertainment purposes. These sessions will bring together scientists, engineers, business professionals, market analysts, and industry leaders involved in digital or e-signage, including indoor and outdoor display technologies, products, applications, advanced developments, and emerging trends.

Paper submissions including but not limited to the following topics are welcome:

• Digital and e-Signage Displays (Interior and Exterior Applications)
• Digital out-of Home (DOOH) Displays
• Public Information Displays for Wayfinding, Transportation, Public Safety Announcements, etc.
• Architectural Displays Integrated into buildings Such As Smart Windows, Corporate Lobbies, Art Walls, etc.
• Emerging Display Technologies for Digital and e-Signage Displays Such As Direct-View LED and MicroLED Video Walls
• Display Technologies for Outdoor Displays Such As High-Brightness LCDs, OLEDs, and Reflective e-Paper
• Display Technologies for Sunlight Performance Optimization, Such As Ambient Contrast Ratio, Color Gamut Shrinkage, and Anti-Reflection Coatings
• Retail POI and POS Integrated Display Solutions
• User Interaction Tasks and Controls for Interactive Digital Signage and Outdoor Display Applications
• Subassemblies of Digital Signage and Outdoor Displays
• Evaluations and Measurements Dealing with Bright Ambient Light, Heat, Lifetime, Burn-In, and Image Sticking
• Technologies for Customizing Display Design (Form-Factor, Zero-Bezel, Curved, Flexible)

The evolution of new computing technologies and the availability of big data are boosting machine learning (ML) and deep learning in different fields. This special topic covers the applications of artificial intelligence in all aspects of display technologies and manufacturing. These sessions will bring together display experts and AI/ML experts to explore opportunities to solve challenging display problems with the most promising AI/ML techniques. Artificial Intelligence/Machine Learning topics include, but are not limited to, the following:

• Techniques in Graphics, Image Processing, and Computer Vision
• Applications in Enhancing Display Technology Integrated with Other Functionality
• For AR/VR Applications in Developing Featured Machines
• Image Enhancement and Optimization for Specific Users and Situations
• Novel Use of AI in Display Design, Manufacturing, and Repair
• Innovations in Display Measurement and Auto-Correction
• New Concepts for Human Visual Perception in Displays
• Improving Functions, Interactive Applications, and Processes to Enhance User Experiences

Advanced display applications, particularly in mobile and wearable devices, require optimizing spaceconstrained architectures and functional co-existence of the display and various components required in these applications (such as for sensing, imaging, connectivity, transducers, etc.).This special topic aims to bring together contributions by authors from academia, display, and non-display companies that are developing technologies, display and component designs optimized for co-existence, new assembly or integration solutions, and software solutions for minimizing display impact on the respective components and functionalities. Examples include, but are not limited to:

• Sensors for Detecting Ambient Light, Proximity, Fingerprint Scanning, Health Metrics Monitoring, etc. Integrated under or within Display Modules
• RGB and IR Imaging Through Display, Including Advances in Camera Sensors for Under-Display Integration, New Display Designs for Reducing Impact on Imaging Artifacts, and Software Solutions for Image-Quality Improvements
• Antenna and Display Module Integration Solutions to Enable Connectivity at Different RF Bands (e.g. NFC, Bluetooth, LTE, mmWave, etc.)
• Transducers for Input/Output Applications, Including Pressure Sensing, Haptics, Thin-Film Speakers, Ultrasound Sensors, etc.
• Photosensor Arrays Based on AM TFTs and Organic PDs
• Microfluidic Chips Based on Display TFT Technologies

Novel ultra-high bandwidth solutions are needed to enable the next generation of beyond-8K resolution and data-intensive applications such as holography, stereovision, light-field displays, and next-generation AR/VR/MR. Achieving retina resolution at large field of view and high frame rate necessitates a significant increase in data generation, processing, and transmission bandwidth. Foveal tracking and other functions can require intensive high-speed processing in small form factors. Additionally, the inclusion of numerous sensors and cameras compounds the need for ultrahigh- bandwidth data requirements and intuitive user controls. These challenges pose a significant hurdle for existing hardware architectures to meet the demands of low power consumption, low thermal budget, low latency, ease of use, and long battery life products.

This special topic seeks contributions from display and non-display companies and academia that are engaged in innovative work with new ideas to address this complex problem. We invite abstract submissions on the following topics, although contributions are not limited to these areas:

• High Efficiency Data and Display Link.
• Data and Image Compression Including Foveal Techniques
• High-Efficiency Display Data and Related Applications Processing
• Efficient Integration and Processing of Display, Image, and Data Storage; Image and Data Analysis; Plus Multiple Camera and Other Sensors Data
• High Bandwidth and Low Pj/Bit Memory Technology
• Low Power Driving for Multiple High-Resolution Displays
• Low Power Sensing and Camera Technologies
• Controls for Users to Easily Manage Large Numbers of Multiplexed Devices

The Society for Information Display (SID) encourages the submission of original papers on all aspects of the research, engineering, application, evaluation, and utilization of displays. Paper submissions are welcome for any of the following symposium topics:

 


(1) ACTIVE-MATRIX DEVICES: Submissions are solicited covering all novel aspects of TFTs, including semiconducting materials, structures/processing, reliability, circuit design, and the application of active-matrix electronics to displays and other related systems.

•  On-Silicon Technology for OLEDoS and LEDoS
•  TFT Technology for Semiconductor Applications
•  Ferroelectric TFT Technology
•  Oxide TFT for Neuromorphic Devices
•  Sensor on Pixel and Sensor under Displays
•  Solution-Processed & Printed Inorganic TFTs
•  TFT Technologies for Novel Applications (Automobile, Avionics, etc.)
•  Emerging Active-Matrix Devices and Materials
•  Backplane Technology for MicroLEDs and QD-OLEDs
•  LTPO and Novel Device Integration Technologies
•  Novel TFT Circuits and Driving Technologies
•  New AMOLED Display Pixels and Backplanes

 


(2) APPLIED VISION/HUMAN FACTORS: New display technology has driven displays to incorporate more pixels, greater contrast, higher luminance, and richer color volume, thus enabling a wide range of new visual experiences. Submissions are encouraged that will discuss the benefits and tradeoffs of how these new display technologies, as well as novel uses of traditional display technology, can have a measurable impact on the visual experience. Topics in the following areas are particularly in demand: mitigating challenges by presenting comfortable and engaging 3D imagery (including autostereoscopic, AR, and VR form factors), effective use of a wider color volume to create a more immersive and compelling experience, and approaches to take advantage of limitations of the visual system to process or transmit display data more efficiently. Papers that discuss novel methods of user interaction and HMI with display systems are also welcomed. In addition, this year we also encourage submissions in the following technical areas:

•  Displays for Therapy and Assistive Technologies
•  Wide-Color-Gamut and High-Dynamic-Range Imaging
•  Visual Comfort and Health with Display Systems (Including Links between Myopia and Displays)
•  Immersive Interaction with AR/VR/XR Displays
•  Image Quality and Display Perception
•  Peripheral Vision Effects on Perceived Virtual Presence with VR displays, and Passthrough Headsets
•  Foveated Rendering for VR Displays


(3) AUGMENTED REALITY, VIRTUAL REALITY, AND MIXED REALITY: We invite manuscript submissions that address critical aspects of developing Augmented Reality (AR), Virtual Reality (VR), and Mixed Reality (MR) into a ubiquitous mainstream technology. AR/VR/MR are key enablers for the digitally reconstructed virtual world with widespread applications in education, entertainment, engineering, healthcare, human sensory enhancement, and smart manufacturing, just to name a few. This comprehensive technical program will cover the full range of emerging innovative technologies and novel applications of AR/VR/MR. Papers will be organized into tracks so that attendees will be able to follow primarily AR/VR/MR subjects, including across multiple topics covered elsewhere within the Call for Papers.

Examples of topics of interest include, but are not limited to, the following:

•  Microdisplay Technologies: microLED, micro-OLED, AMLCD, LCoS, Laser Beam Scanning, Row and Block Pixel-Array Scanning, MEMS, etc. with High-Dynamic Range, High-Resolution Density, and Compact Size
•  Imaging Optics: Wide Field of View, Large Eyebox and Eye Relief, Compact and Lightweight, High Optical Efficiency, Foveation, Active Focusing and Image- Shifting Optics, Corrective Vision Optics, Meta-Optics, and Deformable Displays Working with Novel Optics
•  Optical Combiners: Geometric Optics, Waveguides, Holographic Optical Elements, Diffractive Optics, Polarization Devices, Pin Mirrors, etc.
•  Low Power Consumption: High Optical and Electrical Efficiencies, Smart Dimmers, and Thermal Management
•  3D Effects: Light Field, Vergence-Accommodation Conflict, Multifocal Displays, Holographic Displays, and Maxwellian View
•  Eye-Tracking, Localization, Mapping, and Navigation Techniques for AR/VR/MR
•  Mapping and Rendering of Virtual Objects onto the Physical World
•  Immersive Audio Technologies Including Human Audio Perception Enhancement Technologies
•  Enhancement of Human Senses and Perception for Situational Awareness Including Novel Sensors Potentially Adaptable to AR/VR/MR Applications
•  Overall AR/VR/MR Operating System Software and Novel Applications Software Including User Controls for Highly Multiplexed I/O Devices and Communications
•  Computation, Graphics, Simulations, and Image Processing Including Facial, Scenes, and Object- Recognition Analysis Assistance
•  Machine Learning and AI Techniques Relevant to AR/VR/MR
•  New Applications for Digital Twins
•  Storage, Retrieval, and Analysis of Images and Data from Sensors, User Inputs, and Other Sources
•  End-to-End System Architectures, Integration, and Latency
•  Novel Form Factors: Stylish, Glasses-Like, Compact, and Lightweight. Appearance of Near-Eye Product User to Other People
•  Methods and Headwear for the Recreation of Realistic Experiences Such as Working in Front of Multiple Large Monitors, Peripheral Vision Cues, and Multiple- Person Experiences, among Others
•  Ergonomic Consideration in Wearable Display Design

 


(4) AUTOMOTIVE/VEHICULAR DISPLAYS AND HMI TECHNOLOGIES: Papers for this topic shall deal with all aspects of automotive and vehicular displays and related HMI issues, including market aspects, display and lighting technologies, head-up displays, smart displays, application issues with vehicular displays, and advanced technologies for displays, touchscreens, and gestures in vehicles as well as the user experience. Contributions in the following areas are solicited:

Displays
•  Avionic Displays and Applications, Including HMD, HUD, and Interaction Means
•  Smart Vehicular Display and Lighting Technologies
•  Interactive Technologies for Automotive Displays
•  Application Issues with Vehicular Displays and Lighting
•  Metrology for Automotive Displays
•  Displays for ADAS (Advanced Driver Assistance Systems)
•  Head-Up Displays (HUDs), Including AR, Holographic, and Night Vision
•  Automotive and Vehicular Display Market and Technology Trends
•  Infotainment and Passenger Entertainment Displays
•  Projection Displays (Other than HUD) for Interior and Exterior Projection
•  Transparent Displays (Other than HUD) for Window, Panoramic Roof, etc.
•  Camera and Rear-Mirror Display Systems
•  Video Interface and Display Link for Automotive
•  Exterior Automotive Displays (Other than Projection)
•  Displays as Interior Design Elements
•  High-Visual-Performance Displays for Automotive
•  Display Readability in Variable Ambient Lighting Situations
•  Optical Components for Automotive Applications
•  Optical Bonding, AR/AG/AS Coating
•  Display Materials Optimized for Automotive Applications
•  Motorbike and Bicycle Displays and Applications
•  Modeling and Simulations

HMI Technologies
•  Automotive User Experience (UX), User Interaction (UI), User Delight (UD)
•  Human-Machine Interface (HMI) System Solutions
•  HMI for, and User Experience (UX) of, Advanced Driver Assistance Systems, Automated Driving, etc.
•  Multi-Modal Input and Output User Experience (UX)
•  Driver Inattention (Driver Distraction)
•  Application Issues with Automotive HMIs
•  Customer Acceptance and Feedback on Different Technology Displays and Interfaces
•  Regulations and Trends Related to In-Vehicle Interfaces

 


(5) DISPLAY ELECTRONICS: All aspects of circuits (integrated or otherwise) for displays, electronic components for displays and imaging devices, and imageand video-processing algorithms will be considered

•  Algorithms and Driving Electronics for Under-Display Cameras and Sensors
•  Image Compression, Enhancement, and Restoration on Display Devices
•  Driving Electronics for Foldable/Stretchable/Wearable Displays
•  Optical Compensation Circuits and Algorithms
•  Electronics for Touch and Interactive Displays
•  Micro-Display (uLED, OLEDOS) Driving and Pixel Structures
•  Display Drivers, TCONs, and New Driving Schemes
•  Variable Refresh Rate Electronics and Driving Schemes
•  Machine Learning for Display Electronics
•  Low-Power and Low-Cost Driving Techniques
•  3D/Depth Imaging and Augmented/Virtual Reality
•  High-Dynamic-Range Driving Electronics
•  Multiplexing Sensors, Imagers, and Communication Electronics, Including User Controls to Address These Multiple Pathways

 


(6) DISPLAY MANUFACTURING: Papers addressing the following areas will be considered: materials, processes, and equipment advancements related to the manufacture of display panels, components, and module assemblies.

•  Manufacture of High-Resolution OLED and Other Emissive Display Panels, Fine Metal Mask (FMM), OLED Evaporation Systems, OLED Printing or Patterning Processes, and Thin-Film Encapsulation (TFE) Processes
•  Inline Manufacturing Test, Repair, Metrology, and Quality Control
•  Manufacturing-Related Advances Enabling Current and Emerging Displays Including Flexible, Foldable, Stretchable, Wearable Displays; 3D or Transparent Displays; Multi-Functional Display Architectures; etc.
•  Manufacturing-Related Advances Such As Use of AI and ML in Display Manufacturing and Defect Detection
•  Manufacture of AMLCD and Other Non-Emissive Displays
•  Manufacture of e-Paper and Other Reflective Displays
•  Manufacturing Equipment and Processes, Including Very Large Substrate Sizes
•  Manufacturing Equipment for Front- and Back-End Processing Including Packaging, Encapsulation, Interconnect, Assembly, and Roll-to-Roll Processing
•  Display-Module Manufacturing Including Panel and Module Assembly for All Display Technologies (e.g., AMLCD, OLED Display, e-Paper, Mini/MicroLED Display, Projection, etc.)
•  Display-Component Manufacturing (e.g., Optical Films, Color Filters, LEDs, Backlights, In-Cell and On-Cell Touch Panels, Finger-Print Sensors, Covers, etc.), Including Topics Related to High Luminance and True Black, HDR Displays, and Quantum-Dot (QD)-Based Applications
•  Materials for Panel and Module Manufacturing, Including Substrates, Films, Adhesives, Photo-Patternable Organic Materials (for Bank Layers or Polarization Layers, etc.), Photoresists, Sputtering or Evaporation Materials, and Consumables
•  Manufacturing Productivity and Cost-Reduction Topics
•  Sustainable and Green Manufacturing — Reducing Energy Consumption and Waste, and Strategies for Product End-of-Life Recycling and Disposal, Product Design in Accordance with “Right to Repair,” etc.

 


(7) DISPLAY MEASUREMENT: Submissions are encouraged that address the electro-optic characterization and measurements of displays and display components.

•  Characterization of Visual Performance of Electronic Displays Through Optical Metrology – Including HDR, Wide-Gamut, Ultra-High Bandwidth, Direct-View, Projection, and 3D Displays
•  Characterization of Perceptible Display Artifacts Such As Mura, Flicker, Motion Blur, Image Sticking, etc.
•  Measurement Methods for Near-to-Eye Displays for AR, VR, and MR Applications
•  Measurement Methods for Vehicular Displays - Including Head-Up Displays
•  Methods and Models to Predict and Measure Display Color Performance
•  Correlation of Visual Phenomena Modeling to Measured Performance Metrics
•  Display Testing and Calibration Methods in Mass Production, Including Procedures for Consistent Performance and Improving Measurement Reliability
•  Characterization of Display Materials and Components and Their Effects on Display Optical Performance
•  Examination of Imaging Photometry Methods Employing High-Resolution Cameras and AI-Driven Capture Methods and Evaluation Algorithms
•  Advances in Display Measurements Standards
•  Calibration and Verification of Optical Measurement Instrumentation

 


(8) DISPLAY SYSTEMS: The Display Systems Subcommittee is soliciting original papers on the novel integration of displays into specialized devices as well as system-level aspects of electronic displays, including the following:

•  AR/VR/MR Including Augmented Reality, Virtual Reality, Mixed Reality, and Other Near-Eye and Table-Top Display Systems; Novel Components and/or Novel System Integration, Including Microdisplays, Projection Optics, and Viewing Optics (e.g., Waveguides, Light Guides, Diffractive, Reflective, Flat Optics by Liquid Crystals and Metasurfaces)
•  High Bandwidth Communication with Ultra Low-Latency and Power for AR/VR/MR Displays
•  System-Level Optimizations of Telepresence Systems/Intelligent Background Subtraction for Privacy
•  High-Dynamic Range (HDR) Displays, Including Dual-Cell LCDs, miniLED Backlights, and All System Technologies to Create HDR Displays
•  SDR/HDR/Display Backlight Units (BLUs), Frontlight Units (FLUs), and Optical Components
•  3D, Autostereoscopic, Light-Field, Volumetric, Holographic, Aerial Displays, and Components
•  Large-Area-Display Technologies: Cinema Displays, Direct-View LED Walls, Digital Signage
•  Projection Head-Up Displays for Automotive, Aviation, and Other Applications
•  Projection Systems, Arrays, Subsystems, Components, and Projection Mapping
•  Design, Manufacturing, Applications, and Novel Architectures of Projectors
•  Standards and Guidelines Related to the Design or Evaluation of Display Systems
•  Light-Guiding Components for Automotive Lighting and Illumination
•  Immersive Display Systems, Dome Displays, and Cave Displays
•  Artificial Intelligence in Display Communication Systems
•  Novel Displays, Components, and Image Processing
•  Display Systems and Components
•  Transparent Displays
•  Mobile Displays

 


(9) EMERGING TECHNOLOGIES AND APPLICATIONS: The ongoing evolution of display technology spans nearly a century and continues to drive new innovations that revolutionize and enrich our lives in limitless applications. We encourage submission of papers about technologies that are truly innovative or breakthrough, as well as pioneering applications using both new or existing technology, with primary focus on (1) emerging technologies that have utility in the display industry that are new or progressing but not yet mainstream, (2) novel applications of displays and related display technologies, and (3) unique uses of display technologies in nondisplay technologies and applications as well as integration of non-display technologies in displays.

Examples of topics of interest include – but are not limited to – the following:

•   Novel Applications of AR/VR/MR and New Technologies to Enhance Virtual Experiences
•  Applications of Artificial Intelligence (AI) and Machine Learning (ML) for Enhancing Imaging, Healthcare, Wellness, and Manufacturing
•  Non-Display Applications like Antennas, Beam-Steering Devices, Lenses, LIDAR, Light Field and Other Technologies That Can Be Applied to Future Virtual and Direct-View Display Applications
•  Medical and Biological Applications Including Imaging, Microscopy, Diagnostics (Including Glucose Monitoring), Therapy, Remediation, and Quality of Life
•  Circular Economy, Low Carbon, and Sustainability (CELCS)
•  Display and Sensor Combinations for Unique Applications (e.g., Medical, Personal Identification, Robotic or Drone Controls, and Enhancing Human Capabilities)
•  Applications of Meta-Surface, Meta-Optics, Micro-Optics, and Other Novel Optical Solutions for Displays
•  Smart Displays and Novel Uses of Embedded Technologies
•  Advanced Optics and Tunable Active Optic Technologies for Enhanced Vision, Near-Eye Displays, and Holography
•  Multi-Modal Display User Interfaces (e.g., Auditory Displays and Other Sensory Information)
•  Innovative Audio Devices Combined with Displays
•  Display Software Applications (e.g., Image Enhancement)
•  New Avionics, Military, and Ruggedized Display Applications
•  Novel Ubiquitous Display Applications; Displays for IoT Solutions

 


(10) EMISSIVE, MICROLED, AND QUANTUMDOT DISPLAYS (EMQ): Advances in materials, processes, designs, and functions of emissive displays, including electroluminescent and photoluminescent quantum-dot displays, quantum-dot materials, microLED displays, microLED processing, LED displays and video walls, inorganic EL displays, field emitters, perovskite materials, and nano phosphors, are sought. Emissive display-compatible sensors, sensing-integrated emissive displays, and smartdisplay topics are also requested, with a focus on the integration of photodetectors, sensors, micro-ICs, and other unique functionalities (e.g., LiFi elements, electro-optical elements) into emissive displays.

•  Emissive Display-Compatible Sensing Technologies and Smart-Display Technologies
•  Unconventional Displays and Alternative Applications of Emissive Display Technologies
•  Photoluminescent Colloidal Quantum-Dot Technologies for Displays (Components, Devices, Materials, and Manufacturing)
•  Electroluminescent Colloidal Quantum-Dot Technologies for Displays (Components, Devices, Materials, and Manufacturing)
•  MicroLED Displays (Devices, Metrology, Materials, and Manufacturing)
•  Perovskites, Phosphors, Plasma, Field-Emission, and Inorganic Electroluminescent Displays

 


(11) FLEXIBLE DISPLAYS AND E-PAPER: The subcommittee seeks submissions on all aspects of flexible, e-Paper, and wearable display technologies, including flexible, stretchable, bendable, foldable, or rollable display devices (microLED, OLED, electro-phoretic, MEMS, cholesteric LCD, electro-wetting, electrochromic, and other emissive and reflective display devices) and system-level integration of such devices and printed electronics based on organic and inorganic materials. Advances in flexible-display materials (substrates, transparent conductors, TFTs, dielectric, encapsulation, barrier layers, and adhesives), patterning and novel deposition techniques, manufacturing methods (R2R, bonding, and lift-off), electro-optical effects, sensor technologies and sensor interfaces, driving techniques including ultra-low-power operation, device performance and reliability, ergonomics, and applications for emerging flexible, paper-like, wearable, or stretchable display technologies are also sought.

•  Electronic Papers Including LCD, EPD, EWD, MEMS, ECD, and Other Non-Emissive or Emissive Displays and Devices
•  Bio/Medical and Ultra-Low-Power Applications of Flexible/Wearable Displays and e-Papers
•  Flexible OLED, MicroLED, QD-LED, and Other Emissive Materials, Displays, and Devices
•  System-Level Integration for Flexible, Wearable, Bendable, and Stretchable Display Devices
•  Materials and Devices for Textile/Fiber Displays and Electronics
•  Flexible Sensors and Wearable Displays
•  Flexible Display Components and Materials Including Substrates, Films, Adhesives, Encapsulation, and Barriers
•  Organic and Other Solution-Based TFTs, Flexible Active-Matrix Backplanes
•  Integration, Packaging, Testing, and Reliability of Flexible Displays and e-Paper
•  Flexible-Display Manufacturing of and Equipment for Printed Electronics
•  Applications and Ergonomics of Integrated Flexible Electronics
•  Flexible and Stretchable Hybrid Electronics
•  Materials and Devices for Novel Mechanical UI/UX Technique

 


(12) INTERACTIVE DISPLAYS: Papers for this topic include (1) all aspects of interactive functionality that are fundamentally integrated into the display, (2) the evolution of capacitive, optical, and piezo sensing, and (3) novel standalone sensors that have a clear path to integration with a display. Examples include, but are not limited to:

•  Touch Sensors, Controllers, and Electronics
•  Stylus, Force, and Hover Sensing
•  Optical Imaging Through the Display (Including RGB, Infrared, and Depth Cameras), and Associated Image Reconstruction Algorithms
•  Fingerprint Sensors, Including Optical, Capacitive, and Ultrasonic Techniques
•  Sensors for Ambient Light (ALS) and Proximity
•  Sensors for Health and Physiological Monitoring, Including Pulse/Ox, ECG, Glucose
•  Haptics, Including Electrostatic and Vibrotactile Approaches
•  Acoustics and Audio Devices
•  Antennas (Broadband, NFC, Reconfigurable)
•  Novel Standalone Sensors Based on Display Technology

 


(13) LIQUID-CRYSTAL TECHNOLOGY: Papers are sought on advances in the development of liquid crystal, including electro-optical effects, materials, applications, and devices.

•  Flexible, Rollable, and Conformable LCDs
•  LCDs for Outdoor Signage Applications
•  High Image Quality/Super High Resolution
•  Fast-Response-Time and Color-Sequential LCDs
•  High-Dynamic-Range and High-Ambient-Contrast LCDs
•  Wide-Color-Gamut and QD-Enhanced LCDs
•  Reflective LCDs
•  LC for Automotive Displays
•  LC for AR/VR Applications
•  LCD in Light-Field 3D Systems
•  Smart Windows
•  Display Enhancement
•  LC-Based Spatial Light Modulators and Optical Elements
•  LC Alignment Technologies
•  New LC Materials
•  Use of LC Technologies in Sensing Applications
•  LC for Nonvisible Wavelength Applications

 


(14) ORGANIC LIGHT-EMITTING DIODES: Topics of interest include OLED materials and device architectures, as well as OLED display design, prototyping, manufacturing, and performance. Papers on OLED signage and OLED lighting solutions are also welcome.

•  High-Performance OLED Displays of All Sizes: Micro, Mobile, Tablet, Laptop, Monitor, TV
•  Light Extraction for OLED Efficiency Enhancement or Angular Emission Management
•  Performance Correlations between OLED Devices and OLED Displays
•  OLED Physics and Models
•  Novel OLED Materials and Architectures Enabling OLED Display Advancements, Including AR/VR Displays
•  Organic + Inorganic Hybrid Materials and Devices Including Perovskites for Display Applications
•  Reliability and Degradation of OLED Devices or Displays
•  New OLED Pixel Architecture Including Color Filter, Microlens, etc.
•  OLED Encapsulation
•  OLED System Integration, Manufacturing, and Cost Reduction
•  OLEDs for Lighting Applications