Xin Gao scite author profile

It is known that self-assembled molecular monolayer doping technique has the advantages of forming ultra-shallow junctions and introducing minimal defects in semiconductors. In this paper, we report however the formation of carbon-related defects in the molecular monolayer-doped silicon as detected by deep-level transient spectroscopy and low-temperature Hall measurements. The molecular monolayer doping process is performed by modifying silicon substrate with phosphorus-containing molecules and annealing at high temperature. The subsequent rapid thermal annealing drives phosphorus dopants along with carbon contaminants into the silicon substrate, resulting in a dramatic decrease of sheet resistance for the intrinsic silicon substrate. Low-temperature Hall measurements and secondary ion mass spectrometry indicate that phosphorus is the only electrically active dopant after the molecular monolayer doping. However, during this process, at least 20% of the phosphorus dopants are electrically deactivated. The deep-level transient spectroscopy shows that carbon-related defects are responsible for such deactivation.

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Zr-doped Li4Ti5O12 anode materials with high specific capacity for lithium-ion batteries

Hou

Qin

Gao

et al. 2019

Journal of Alloys and Compounds

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Co-doped Li4Ti5O12 nanosheets with enhanced rate performance for lithium-ion batteries

Qiu

Cao

Song

et al. 2017

Electrochimica Acta

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Xin Gao

Deep level transient spectroscopic investigation of phosphorus-doped silicon by self-assembled molecular monolayers

Zr-doped Li4Ti5O12 anode materials with high specific capacity for lithium-ion batteries

Co-doped Li4Ti5O12 nanosheets with enhanced rate performance for lithium-ion batteries

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