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Research Paper#UV-C LED, AlGaN, MBE, Edge Emission🔬 ResearchAnalyzed: Jan 3, 2026 16:56

Edge Emission UV-C LEDs Grown by MBE on Bulk AlN

Published:Dec 29, 2025 23:13
1 min read
ArXiv

Analysis

This paper demonstrates the fabrication and performance of UV-C LEDs emitting at 265 nm, a critical wavelength for disinfection and sterilization. The use of Molecular Beam Epitaxy (MBE) on bulk AlN substrates allows for high-quality material growth, leading to high current density, on/off ratio, and low differential on-resistance. The edge-emitting design, similar to laser diodes, is a key innovation for efficient light extraction. The paper also identifies the n-contact resistance as a major area for improvement.
Reference

High current density up to 800 A/cm$^2$, 5 orders of on/off ratio, and low differential on-resistance of 2.6 m$Ω\cdot$cm$^2$ at the highest current density is achieved.

PermalinkArXiv
Research#LED🔬 ResearchAnalyzed: Jan 10, 2026 09:38

Optimizing Perovskite LEDs with Plasmonics: A DFT-Informed FDTD Study

Published:Dec 19, 2025 11:31
1 min read
ArXiv

Analysis

This research explores the potential of plasmonics to enhance the performance of perovskite LEDs. The study leverages advanced computational methods (DFT and FDTD) to provide design guidelines for improved light emission.
Reference

The article's context indicates the research focuses on plasmon-enhanced CsSn$_x$Ge$_{1-x}$I$_3$ perovskite LEDs.

PermalinkArXiv
Research#llm📝 BlogAnalyzed: Dec 25, 2025 16:58

Tiny Implant Sends Secret Messages Directly to the Brain

Published:Dec 8, 2025 10:25
1 min read
ScienceDaily AI

Analysis

This article highlights a significant advancement in neural interfacing. The development of a fully implantable device capable of sending light-based messages directly to the brain opens exciting possibilities for future prosthetics and therapies. The fact that mice were able to learn and interpret these artificial signals as meaningful sensory input, even without traditional senses, demonstrates the brain's remarkable plasticity. The use of micro-LEDs to create complex neural patterns mimicking natural sensory activity is a key innovation. Further research is needed to explore the long-term effects and potential applications in humans, but this technology holds immense promise for treating neurological disorders and enhancing human capabilities.
Reference

Researchers have built a fully implantable device that sends light-based messages directly to the brain.

PermalinkScienceDaily AI