Home
Introduction
Members
Publications
Facilities
Products
Chinese
Mid-infrared Emission Properties of Pr3+-doped Ge–Sb–Se–Ga–I Chalcogenide Glasses
Silver nanoparticle enhanced 2.7 µm luminescence in Er3+-doped bismuth germanate glasses
Correlation among Structure, Water Peak Absorption and Femtosecond Laser Ablation Properties of Ge-Sb-Se Chalcogenide Glasses
Mid-infrared Optical Properties of Chalcogenide Glasses within Tin-Antimony-Selenium Ternary System
Correlating Structure with Threshold Behavior of Chalcogenide Glasses Within Ge-Sn-Se Ternary System
News
Correlation between acousto-optic and structural properties of Ge–Sb–S chalcogenide glasses
20-05-02
Low-Loss and Broadband Nonvolatile Phase-Change Directional Coupler Switches
19-03-27
Multi-slot photonic crystal cavities for high sensitivity refractive index sensing
19-03-27
In situ and ex-situ physical scenario of the femtosecond laser-induced periodic surface structures
19-03-27
Mid-infrared Emission Properties of Pr3+-doped Ge–Sb–Se–Ga–I Chalcogenide Glasses
18-05-28
Silver nanoparticle enhanced 2.7 µm luminescence in Er3+-doped bismuth germanate glasses
18-05-28
Congratulation of Dr Xing Li(李杏) and Dr Zijun Liu(刘自军) got the scholarship supported by the Chinese Scholars Council
18-04-13
Research Highlights
Correlation between acousto-optic and structural properties of Ge–Sb–S chalcogenide glasses
Optimized Ge-As-Se-Te chalcogenide glass fiber sensor with polydopamine-coated tapered zone for the highly sensitive detection of p-xylene in waters
Ultrabroadband and coherent mid-infrared supercontinuum generation in Te-based chalcogenide tapered fiber with all-normal dispersion
Low-Loss and Broadband Nonvolatile Phase-Change Directional Coupler Switches
Multi-slot photonic crystal cavities for high sensitivity refractive index sensing
In situ and ex-situ physical scenario of the femtosecond laser-induced periodic surface structures
Address: Fenghua Road, No. 818, Ningbo, Zhejiang, Ningbo University
Email : ir-glass@nbu.edu.cn
Research: Chalcogenide glass
Laboratory of Infrared Material and Devices. © 2011-2018. All rights reserved