Solid-State Lighting (SSL)
1. Why are LEDs considered more energy-efficient than incandescent bulbs?
The LEDs convert a higher percentage of the electrical energy into visible light and while incandescent bulbs primarily produce heat.
2. Can I use LEDs in outdoor environments with extreme temperatures?
While LEDs are sensitive to high temperatures advancements in the heat management technology have made outdoor LED lighting viable in the various climates.
3. How do OLEDs differ from traditional LEDs in terms of construction?
The OLEDs use organic compounds that emit light when an electric current is applied and while traditional LEDs utilize inorganic semiconductor materials.
Solid-State Lighting
In this article, we will study solid-state lighting, which is the use of solid-state materials as a source of illumination, usually light-emitting diodes (LEDs). Solid-state lighting, as opposed to conventional incandescent or fluorescent lighting, which depends on thermal processes, produces light as a result of the flow of electrons within a semiconductor material.
Table of Content
- What is LED?
- Reasons of Evolution of Solid-State Lighting (SSL)
- How Is LED Lighting Different from Other Energy-Efficient Lighting Technologies?
- Types of SSL of Solid-State Lighting (SSL)
- Properties and Characteristics of Solid-State Lighting (SSL)
- Applications of Solid-State Lighting (SSL)
- Advantages and Disadvantages of Solid-State Lighting (SSL)