Osaka Institute of Technology: Smartly 'Adding' Spiral Light
A research group at the Osaka Institute of Technology successfully generated circularly polarized light by encapsulating molecules in chiral silica, a spiral nano-glass material. By combining this with 'upconversion,' they achieved 'UC-CPL,' which converts low-energy light into high-energy light, promising applications in next-gen displays and optical communications.
📋 Article Processing Timeline
- 📰 Published: June 2, 2026 at 23:00
- 🔍 Collected: June 2, 2026 at 14:20
- 🤖 AI Analyzed: June 2, 2026 at 14:50 (30 min after Collected)
A research group led by Associate Professor Tomoyasu Hirai at the Osaka Institute of Technology, in collaboration with National Yang Ming Chiao Tung University (Taiwan) and others, successfully generated circularly polarized light by encapsulating molecules within chiral silica, a spiral nano-glass material. By combining this with 'upconversion'—a technique that adds multiple low-energy light photons to convert them into higher-energy light—they achieved 'UC-CPL' (Upconversion Circularly Polarized Luminescence). While traditional methods required complex molecular synthesis, this study achieved the effect through 'molecular arrangement' and 'spatial design,' enabling even achiral molecules to exhibit circularly polarized light. This breakthrough holds promise for next-generation displays, optical communications, and security materials. The results were published in 'Angewandte Chemie International Edition'.
FAQ
What is the innovation of this study?
It controls optical functions by arranging molecules in a chiral space rather than synthesizing complex chiral molecules.