Cymbicidal semiconductor is a type of material with unique electronic structure and physical properties. They have important application potential in the field of high -performance electronic devices and optoelectronics.
According to the Marks Consultation report, the research team of Shanghai Institute of Technology and Physics, the Chinese Academy of Sciences, introducedThe preferred technology of Inas/Gasb super crystal infrared detector has attracted the attention and attention of relevant research institutions at home and abroad, and has made breakthrough progress this year.
With the development of electronic devices in a smaller, faster, and more efficient direction, traditional silicon -based semiconductor materials are gradually approaching its physical limit.In this context, the semiconductor of the sterilizer has become a hot spot for research due to its excellent electronic migration rate and thermal power performance.
Basic properties of antimonide semiconductors
Antimonide semiconductors are a group of Compound semiconductor formed by the combination of the metallic element antimony (SB) with other elements, such as group III-V elements. These materials have a direct band gap, which makes them have potential applications in optoelectronic fields. In addition, antimonide semiconductors are more Electron mobility than silicon, giving them an advantage in high-speed electronic devices.
Manufacturing process
The manufacturing process of the semiconductor of the chemical semiconductor includes the molecular beam extension (MBE), metal organic chemical gas sedimentation (MOCVD) and other technologies.These technologies can accurately control the growth process of the material, so as to obtain high -quality semiconductors in the semiconductor film.
Application prospect
1、High -speed electronic devices: High electrons migration of sanxide semiconductors make it potential in manufacturing high -speed crystal pipes and integrated circuits.
2、Thermoelectric material: The thermoelectricity of the semiconductor of the sidam is excellent and can be used to develop high -efficiency thermoelectric conversion devices.
3、Optical devices: Direct gap characteristics make the cylinder semiconductors in the light emitting diode (LED), laser and other photoelectronic devices are widely used.
4、Solar batteries: High absorption coefficients and tuning bands of tadpole semiconductors make it have research value in the field of solar cells.
Challenges and prospects
Although antimonide semiconductor has many advantages, it still faces some challenges in practical application. For example, the toxicity and scarcity of antimony limit its large-scale applications. In addition, the manufacturing cost of antimony semiconductor is relatively high, which requires technological innovation to reduce costs.Future research will be concentrated in improving the stability of the semiconductors of the chemotherapy, reducing manufacturing costs, and developing new application areas.With the gradual overcoming of these challenges, oligomes are expected to become a key material to promote the improvement of electronic devices.
Anticated semiconductor represents an important breakthrough in the semiconductor material field, and their unique properties provide new possibilities for the future development of electronic devices.With the deepening of research and the advancement of technology, the semiconductors of the chemotherapy are expected to realize commercial applications in multiple fields, becoming an important force to promote scientific and technological progress.