IdealPhotonics' other LED diodes (such as deep ultraviolet LEDs, quantum dot LEDs, and organic OLEDs) are specialized light-emitting devices based on diverse material systems (such as AlGaN, CdSe quantum dots, and organic molecules). They achieve full-spectrum coverage of 200-3000nm through band engineering or exciton radiation mechanisms. Their innovative "nanostructure modulation" and "carrier injection optimization" technologies break through efficiency limits in various wavelength bands (e.g., OLED efficiency >150lm/W), becoming disruptive light source solutions for emerging fields such as sterilization, flexible displays, and micro-spectrometers.Other core features of LED diodes are based on diversified material innovations (such as AlGaN deep ultraviolet, perovskite quantum dots, organic phosphorescent materials, etc.), achieving precise light emission of 200-3000nm through bandgap trimming (deep ultraviolet LEDs reach 265nm±1nm) or exciton modulation (quantum dot LEDs have a full width at half maximum (FWHM) <20nm). Their breakthrough technologies, such as "nanocavity plasma enhancement" (OLED efficiency exceeding 180lm/W), "quantum dot in-situ encapsulation" (lifespan extended 10 times), and "microfluidic heat dissipation" (power density reaching 100W/cm²), have redefined the performance dimension of photoelectric conversion in cutting-edge fields such as deep ultraviolet sterilization (99.999% inactivation rate), wide color gamut display (NTSC 120%), and wearable phototherapy (precise wavelength modulation).