By using silicon CMOS technology to integrate optoelectronic devices and microelectronic devices on the chip, silicon-based photonics is an ideal solution to solve the bottleneck of integrated circuit development. Compatible with the silicon CMOS process, silicon-based materials are the key to realizing silicon-based photoelectric integration. The theme of this Research Topic will focus on the research hotspots in the field of silicon-based materials. Group Ⅳ semiconductors like Ge, GeSn and GePb, rare-earth-doped thin films, Ⅲ-Ⅴ material grown on Si-based substrate will be also included in this Research Topic. Other materials grown on Si substrate like Ga2O3 films are also encouraged to expand the field of Si photonics applications. Topic Editors welcome the latest research achievements to promote the industrialization of silicon-based photoelectric technology.
In this Research Topic, Topic Editors aims to collect the latest progress in the preparation of silicon-based materials and optoelectronic devices in the experimental field, as well as possible new methods. In addition, the performance of silicon-based optoelectronic devices from the aspect of improving material crystal quality and photoelectronic conversion efficiency will be discussed. The latest progress and challenges in silicon-based material growth and device fabrication are also welcome. Topic Editors hope this Research Topic can provide readers a deep understanding of silicon-based optoelectronics technology, and serve as a knowledge base for future work in this field.
The scope of this Research Topic will be specific to silicon-based materials. High-quality Original Research, Review and Perspective articles on material simulation, growth, characterization, design, preparation and silicon-based optoelectronic devices characterization are welcome. The research contents of interest include but are not limited to:
1. Group IV semiconductors simulation, growth and characterization
2. Group III – IV material grown on Si substrates
3. Rare-earth doped thin film on Si substrates
4. Other materials that are grown on Si-based substrates
5. Photoelectronic properties of Si-based materials
By using silicon CMOS technology to integrate optoelectronic devices and microelectronic devices on the chip, silicon-based photonics is an ideal solution to solve the bottleneck of integrated circuit development. Compatible with the silicon CMOS process, silicon-based materials are the key to realizing silicon-based photoelectric integration. The theme of this Research Topic will focus on the research hotspots in the field of silicon-based materials. Group Ⅳ semiconductors like Ge, GeSn and GePb, rare-earth-doped thin films, Ⅲ-Ⅴ material grown on Si-based substrate will be also included in this Research Topic. Other materials grown on Si substrate like Ga2O3 films are also encouraged to expand the field of Si photonics applications. Topic Editors welcome the latest research achievements to promote the industrialization of silicon-based photoelectric technology.
In this Research Topic, Topic Editors aims to collect the latest progress in the preparation of silicon-based materials and optoelectronic devices in the experimental field, as well as possible new methods. In addition, the performance of silicon-based optoelectronic devices from the aspect of improving material crystal quality and photoelectronic conversion efficiency will be discussed. The latest progress and challenges in silicon-based material growth and device fabrication are also welcome. Topic Editors hope this Research Topic can provide readers a deep understanding of silicon-based optoelectronics technology, and serve as a knowledge base for future work in this field.
The scope of this Research Topic will be specific to silicon-based materials. High-quality Original Research, Review and Perspective articles on material simulation, growth, characterization, design, preparation and silicon-based optoelectronic devices characterization are welcome. The research contents of interest include but are not limited to:
1. Group IV semiconductors simulation, growth and characterization
2. Group III – IV material grown on Si substrates
3. Rare-earth doped thin film on Si substrates
4. Other materials that are grown on Si-based substrates
5. Photoelectronic properties of Si-based materials