AI Article Synopsis
- Delta doping (δ-doping) is a promising technique used in various advanced semiconductor applications, including transistors and UV photodetectors.
- Researchers created a very thin δ-doping layer on silicon by treating PCl monolayers with flash lamp annealing, which resulted in a metallic state and the formation of a two-dimensional electron gas.
- This innovative n-type δ-doping layer on a p-type silicon substrate enables the creation of highly sensitive solar-blind UV photodetectors, a feat typically achieved with materials like GaN or SiC.
Article Abstract
Delta doping (δ-doping) can find a wide range of applications in advanced metal oxide semiconductor field effect transistors, deep UV photodetectors, quantum devices, and others. In this work, we formed a δ-doping layer in silicon by employing flash lamp annealing to treat the PCl monolayers grafted on silicon surfaces. The δ-doping layer is atomically thin (<1 nm). Low-temperature Hall measurements show that the δ-doping layer is in a metallic state and exhibits a weak localization phenomenon, implying that a two-dimensional electron gas is formed. When we form such an n-type δ-doping layer on a highly doped p-type Si substrate, a highly sensitive solar-blind UV photodetector is created, which traditionally was only possible by using wide band gap semiconductors such as gallium nitride (GaN) or silicon carbide (SiC).
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| http://dx.doi.org/10.1021/acsami.2c04002 | DOI Listing |
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