重要成果！稀土，大消息！

Core Viewpoint - A groundbreaking research achievement by Heilongjiang University, Tsinghua University, and the National University of Singapore has successfully addressed the challenge of efficient electroluminescence in insulating rare earth nanocrystals, providing key technological support for China's strategic shift from "raw material export" to "high value-added technology output" in rare earth resources [2][6]. Group 1: Research Significance - Rare earth elements are considered irreplaceable strategic resources, often referred to as "industrial vitamins" [5]. - China holds advantages in rare earth resource reserves and smelting but faces industrial bottlenecks in high-end functional materials and devices [5]. - The research team introduced an innovative organic semiconductor sensitization strategy, using functionalized organic ligands as "photoelectric bridges" to efficiently transfer energy to insulating rare earth nanocrystals, enabling high-efficiency electroluminescence driven by electric current [5][6]. Group 2: Technological Breakthrough - The new technology demonstrates significant application potential, with electroluminescent device efficiency improved by 76 times, and the ability to achieve full-spectrum emission through rare earth ion modulation within a single device [6]. - This breakthrough marks a critical advancement for China in the high-end optoelectronic application of rare earth materials, providing a new material system for the development of autonomous and controllable ultra-high-definition displays, near-infrared communication, and biomedical applications [6][9]. Group 3: Industry Impact - The breakthrough successfully establishes a technical pathway for converting the properties of rare earth materials into high-end device functionalities, contributing substantively to enhancing China's independent innovation capabilities and the added value of end products in the rare earth industry [9].