High-speed DFB laser chips for optical communications, silicon photonics, and LiDAR applications. GaN HEMTs and MMICs for high-frequency power electronics. LETs and TLs for optoelectronic integrated circuits (EPICs). Micro-LED technology for display and VLC applications. Silicon photonics and DFB lasers for QKD and spot size converters. High-power VCSELs for optical communications, facial recognition, and LiDAR systems. SPADs for LiDAR and quantum applications. High-frequency InP HBTs for millimeter-wave communication in 5G/6G applications.
Jyh-Pin Chou
Semiconductor physics, material simulation database, 2D material
Chun-Hsing Li
Analog, RF, mm-Wave, and THz integrated circuit and system designs, THz imaging systems, antennas, and heterogeneous integration.
Yufeng Jane Tseng
Research team has developed a 3D mass spectrometry imaging (3D MSI) model using schizophrenia mouse brains to map molecular distributions and concentrations, with a focus on understanding their roles in the disease.
Lin, Phone
To develop an advanced diagnostic platform for schizophrenia (SZ) and major depressive disorder (MDD) that combines artificial intelligence (AI) with electroencephalography (EEG) data analysis.
Wen-Chau Wu
Multimodal precision medical imaging
Furen Xiao
Intelligent Medical Device, Brain tumor image
Yuan Luo
Prof. Luo research interests are in volume holographic imaging, high-resolution microscopy and endoscopy, and design and development of spatial–spectral holographic components, deep learning, meta-optics and miniature medical devices.
Yu-chun Lin
Three-dimensional (3-D) Lung-like Tissues Culture System; In vivo Pulmonary Diseases Models; Influence of Mechanical Environment on Corneal Physiology; Medical Device Design
