Electroluminescent

Part Number	Description / PDF	Quantity
DFR0185-HP DFRobot	EL WIRE - HOT PINK	0
416 Adafruit	ELECTROLUMINESC STRIP 100CM WHT	2
403 Adafruit	ELECTROLUMINESCENT WIRE RED 2.5M	0
405 Adafruit	ELECTROLUMINESCENT WIRE ORN 2.5M	0
953 Adafruit	WIRE EL FLOW EFFECT INV PINK 2M	0
COM-14705 SparkFun	BENDABLE EL WIRE ORANGE 3M	1
COM-10798 SparkFun	EL PANEL - BLUE (10X10CM)	9
69-ELW2.3-GR NTE Electronics, Inc.	EL WIRE GREEN 2.3MM DIA	914
DFR0185-GY DFRobot	EL WIRE - GREEN YELLOW	0
404 Adafruit	ELECTROLUMINESCNT WIRE PINK 2.5M	0
69-ELW2.3-YG NTE Electronics, Inc.	EL WIRE YELLOW GREEN 2.3M	86
415 Adafruit	ELECTROLUMINESC STRIP 100CM AQUA	2
69-ELW3.2-BL NTE Electronics, Inc.	EL WIRE BLUE 3.2MM DIA	221
COM-10796 SparkFun	EL TAPE - RED (1M)	0
COM-10794 SparkFun	EL TAPE - WHITE (1M)	0
584 Adafruit	WIRE STARTER PK EL GRN 2.5M-8.2'	0
69-ELW2.3-RD NTE Electronics, Inc.	EL WIRE RED 2.3MM DIA	180
628 Adafruit	STARTER PK EL PANEL 10X10CM WHT	0
69-ELW3.2-TB NTE Electronics, Inc.	EL WIRE TRANS BLUE 3.2MM	173
DFR0185-GB DFRobot	EL WIRE - GRAY BLUE	0

Electroluminescent

1. Overview

Electroluminescence (EL) is a phenomenon where materials emit light in response to an electric current or strong electric field. This technology forms the basis for various modern optoelectronic devices, combining electrical and optical functionalities. Its significance lies in enabling efficient solid-state lighting, flexible displays, and advanced sensing systems, revolutionizing industries from consumer electronics to biomedical engineering.

2. Main Types and Functional Classification

Type	Functional Characteristics	Application Examples
Organic EL (OLED)	Self-emissive, high contrast ratio, flexible substrates	Smartphone displays, VR headsets
Inorganic EL (LED)	High brightness, long lifetime, narrow emission spectrum	Backlighting, automotive lighting
Quantum Dot EL (QLED)	Tunable emission wavelength, high color purity	TV panels, medical imaging
Electroluminescent Wires	Linear light sources, flexible and thin profile	Wearable electronics, signage

3. Structure and Composition

A typical EL device consists of multiple layers: transparent anode (ITO glass), hole transport layer (HTL), emissive layer (organic/inorganic phosphors), electron transport layer (ETL), and metallic cathode. Advanced designs incorporate microcavity structures for enhanced light extraction and flexible barrier films for mechanical durability. Quantum dot variants use nanocrystal dispersions in polymer matrices.

4. Key Technical Specifications

Parameter	Description	Importance
Luminous Efficiency	Light output per watt (lm/W)	Energy consumption optimization
Color Rendering Index (CRI)	Ability to reproduce colors accurately	Visual fidelity in lighting applications
Operating Lifetime	Hours until 50% brightness loss (L50)	Device durability assessment
Response Time	Light emission delay ( s-ms range)	Crucial for high-speed displays
Quantum Efficiency	Photon-electron conversion ratio	Performance benchmarking

5. Application Fields

Key industries include:

Consumer Electronics: Foldable smartphones, transparent TVs
Automotive: HUDs, adaptive headlights
Healthcare: Flexible X-ray detectors, photodynamic therapy devices
Architecture: Smart windows, decorative lighting

6. Leading Manufacturers and Products

Manufacturer	Representative Product	Key Features
Samsung Display	QD-OLED Monitor	2000 nits peak brightness, 97% DCI-P3 coverage
LG Innotek	Flexible OLED Lighting	0.3mm thickness, 20,000 hour lifespan
General Electric	EL Automotive Panels	Wide color gamut, vibration resistance
Nanoco Technologies	Heavy-metal-free QLEDs	RoHS compliance, 100% sRGB coverage

7. Selection Guidelines

Key considerations:

Application-specific requirements (flexibility, transparency)
Operating environment (temperature, humidity)
Power budget vs brightness demands
Color accuracy requirements (CRI >90 for medical imaging)
Lifetime cost analysis (LCOE for lighting systems)

8. Industry Trends Analysis

Current developments focus on:

Hybrid architectures combining OLED microdisplays with silicon backplanes
Perovskite-based EL materials achieving 30% EQE efficiency
Biocompatible EL devices for implantable medical sensors
Micro-LED integration with wafer-level packaging
AI-driven luminance optimization algorithms

Market projections indicate a CAGR of 12.4% through 2030, driven by augmented reality and autonomous vehicle applications.