Integrated Optoelectronics Lab

Introduction

The Integrated Optoelectronics Laboratory at National Taipei University of Technology is engaged in the research of surface enhanced Raman scattering (SERS) devices and integrated optoelectronic devices. The research areas include the novel materials production, the new fabrication process, and the design, simulation, analysis, fabrication, and measurement of the related integrated optoelectronic devices.

Overview

Research Area

• Surface enhanced Raman scattering (SERS) devices
• Synthesis of metal/semiconductor nanocomposites
  
• Optical microring/microdisk resonators
• Electrochemical sensing devices
• Lithium niobate integrated-optic devices
• Liquid-crystal-modulated integrated-optic devices
• Surface plasmon resonance biosensor
• Short-pulse fiber laser
• Optoelectronic device simulation

Research Projects

• Research of metal/semiconductor composite nanomaterials produced using ferroelectric templates for the application of surface-enhanced Raman scattering, Project of National Science and Technology Council, 2022/8/1~2025/7/31
• High-efficiency electro-optically tunable lithium niobate microdisk resonators by heterogeneous waveguide coupling, Project of Ministry of Science and Technology, 2021/8/1-2022/7/31
• Green process development of flexible surface-enhanced Raman scattering substrates for curved surface inspection, Project of Ministry of Science and Technology, 2019/11/1-2021/1/31
• Surface enhanced Raman scattering waveguide sensing devices produced by ferroelectric templates, Project of Ministry of Science and Technology, 2018/8/01-2021/7/31
• Microdisk resonators with selective modal tuning structures, Project of Ministry of Science and Technology, 2017/8/01-2018/9/30
• Study of lithium niobate microdisk lasers, Project of Ministry of Science and Technology, 2014/8/1-2017/7/31
• Study of high-quality LiNbO3 microdisk resonators and their applications, Project of National Science Council, 2013/8/1-2014/7/31
• LiNbO3 waveguide-coupled microdisk structures and their applications, Project of National Science Council, 2012/8/1-2013/7/31
• Study of novel under-cutting microdisk devices on lithium niobate, Project of National Science Council, 2011/8/1-2012/7/31
• Study of new microring resonance devices on lithium niobate and their applications (3/3), Project of National Science Council, 2010/8/1-2011/7/31
• Study of new microring resonance devices on lithium niobate and their applications (2/3), Project of National Science Council, 2009/8/1-2010/7/31
• Study of new microring resonance devices on lithium niobate and their applications (1/3), Project of National Science Council, 2008/8/1-2009/7/31
• Study of new high-sensitivity surface-plasmon-resonance biosensing technique, Project of National Science Council, 2007/8/1-2008/7/31
• Study of new surface plasmon resonance biosensors, Project of National Science Council, 2006/8/1-2007/7/31
• Study of new tunable integrated-optic WDM devices, Project of National Science Council, 2005/8/1-2006/7/31
• Novel Er-Yb co-doped waveguide laser on lithium niobate, Project of National Science Council, 2004/8/1-2005/7/31
• Design and Fabrication of Mode-Locked Er:LiNbO3 Laser (2/2), Project of National Science Council, 2003/8/1-2004/7/31
• Development of optical waveguide birefringence measurement system, Project of National Science Council, 2002/12/1-2004/1/31
• Design and Fabrication of Mode-Locked Er:LiNbO3 Laser (1/2), Project of National Science Council, 2002/8/1-2003/7/31

Equipments

Film Deposition System, 1100°C Tube Furnace, 1100°C Box Furnace, Mask aligner, Spin Coater, Optical Microscope, Ultrasonic Cleaner, Fiber Fuser, Balances, CL band Tunable Laser, Optical Power/EnergyMeter, Fiber Port, Manual Polarization Controller, Temperature Controller