Р.Г. Шарафутдинов scite author profile

Р.Г. Шарафутдинов

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Осаждение Пленок Кремния, Легированных Бором И Фосфором Газоструйным Плазмохимическим Методом

Щукин¹,

Шарафутдинов²,

Константинов³

2019

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Doped silicon films are fabricated using diborane and phosphine as doping gases by gas-jet plasma-chemical deposition with the application of an electron beam. The influence of the dopant-gas concentration, the addition of a fluorine-containing gas, and the background pressure on the conductivity and crystalline structure of silicon layers is investigated. Boron-doped amorphous films ( a -Si:H) with a conductivity up to 5.2 × 10^–3 (Ω cm)^–1 are fabricated; when doping with phosphorus, microcrystalline silicon films ( mc -Si:H) with a crystallinity up to 70% and conductivity at a level of 1 (Ω cm)^–1 are fabricated.

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Осаждение Аморфных И Микрокристаллических Пленок Кремния Газоструйным Плазмохимическим Методом

Щукин¹,

Константинов²,

Шарафутдинов³

2019

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Using gas-jet plasma-chemical method with gas activation by an electron beam, uniform thin films of amorphous and microcrystalline silicon in the forevacuum pressure range were obtained. Effects of argon carrier gas flow rate, monosilane gas concentration, background pressure in the reaction chamber, the substrate material, and the magnitude of the activating electron beam current on the deposition rate, photosensitivity, and crystallinity of silicon layers were studied. Deposition rate above 1 nm/s was achieved for films of amorphous silicon, and for layers with crystallinity about 60% the deposition rate was exceeded 0.6 nm/s. It is established that the substrate material does not affect the structure of the deposited silicon layers and their deposition rate.

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