半导体光电材料与器件指包含紫外、可见、红外、太赫兹波段的发射、吸收、探测和操控光的材料与器件，我们将聚焦于半导体光电材料基础理论，材料生长与表征，器件制备工艺及应用三个专题，其研究内容包括但不限于:
1、 半导体光电材料和结构的理论预测、波导理论、光发射、光吸收、光探测等材料载流子特性和结构的远场、近场光学表征等；
2、 包含紫外、可见、红外、太赫兹波段的低维光电材料外延生长技术，材料外延表征技术及材料上下游原料制备和提纯技术，光电材料可控及批量制备技术；
3、 基于低维半导体材料（单晶、量子点、量子阱、超晶格等结构）、二维材料、硅基、锗基材料等的高性能光源、显示器件、功率器件、太阳能电池、增益芯片、激光器、调制器、探测器、集成器件结构设计、工艺制备技术、封装技术研究和应用技术；
这将为半导体光电材料生长与器件制备的相关从业人员领域提供专业的交流平台，推动其前沿研究，完善纳米尺度上的光-电操控，并推动半导体光电材料和器件在激光、探测、通讯、传感等领域的应用。

Semiconductor optoelectronic materials and devices refer to materials and devices that emit, absorb, detect and manipulate light from ultraviolet to Thz wavelength. We will focus on three topics: basic theory of semiconductor optoelectronic materials, material growth and characterization, and device preparation processes and applications. The research content includes but is not limited to:
1. Theoretical predictions of semiconductor optoelectronic materials and structures, waveguide theory of photonic crystals, carrier characteristics of optoelectronic materials, far-field and near-field optical characterization of optoelectronic materials  structures , etc..
2. Low-dimensional infrared optoelectronic material epitaxial growth technology, material epitaxial characterization technology, upstream and downstream raw material preparation and purification technology, and controllable and batch preparation technology of optoelectronic materials.
3. Structural design, process preparation technology, packaging technology research and application technology of high-performance quantum light sources, gain light sources, lasers, and detection devices based on low-dimensional material, single crystal materials, quantum dots, quantum wells, superlattice and other structures.
This will provide a professional communication platform for practitioners related to the growth of optoelectronic materials and device preparation, promote their cutting-edge research, improve optical-electrical manipulation at the nanoscale, and promote the application of infrared optoelectronic materials and devices in lasers, detection, communications, sensing and other fields.

吴东海            中国科学院半导体研究所
杨成奥            中国科学院半导体研究所
毕文刚            香港中文大学（深圳）
金潮渊            浙江大学
巫江                电子科技大学

中国科学院半导体研究所

香港中文大学（深圳）、浙江大学、电子科技大学

由大会统一出版，详细信息请点击【论文出版】

陈益航            中国科学院半导体研究所

17888841440

chenyihang18@semi.ac.cn